TensorFlowModel.ScoreTensorFlowModel Metoda
Definice
Důležité
Některé informace platí pro předběžně vydaný produkt, který se může zásadně změnit, než ho výrobce nebo autor vydá. Microsoft neposkytuje žádné záruky, výslovné ani předpokládané, týkající se zde uváděných informací.
Přetížení
| ScoreTensorFlowModel(String, String, Boolean) |
Vyhodnocuje datovou sadu pomocí předem natrénovaného modelu TensorFlow . |
| ScoreTensorFlowModel(String[], String[], Boolean) |
Vyhodnocuje datovou sadu pomocí předem natrénovaného modelu TensorFlow. |
ScoreTensorFlowModel(String, String, Boolean)
Vyhodnocuje datovou sadu pomocí předem natrénovaného modelu TensorFlow .
public Microsoft.ML.Transforms.TensorFlowEstimator ScoreTensorFlowModel (string outputColumnName, string inputColumnName, bool addBatchDimensionInput = false);member this.ScoreTensorFlowModel : string * string * bool -> Microsoft.ML.Transforms.TensorFlowEstimatorPublic Function ScoreTensorFlowModel (outputColumnName As String, inputColumnName As String, Optional addBatchDimensionInput As Boolean = false) As TensorFlowEstimatorParametry
- addBatchDimensionInput
- Boolean
Přidejte do vstupu rozměr dávky, například vstup = [224, 224, 3] => [-1, 224, 224, 224, 3]. Tento parametr se používá k řešení modelů s neznámým tvarem, ale interní operátory v modelu vyžadují, aby data měla také rozměr dávky.
Návraty
Příklady
using System;
using System.IO;
using System.Linq;
using System.Net;
using System.Net.Http;
using System.Text;
using System.Threading.Tasks;
using ICSharpCode.SharpZipLib.GZip;
using ICSharpCode.SharpZipLib.Tar;
using Microsoft.ML;
using Microsoft.ML.Data;
namespace Samples.Dynamic
{
public static class ImageClassification
{
/// <summary>
/// Example use of the TensorFlow image model in a ML.NET pipeline.
/// </summary>
public static void Example()
{
// Download the ResNet 101 model from the location below.
// https://storage.googleapis.com/download.tensorflow.org/models/tflite_11_05_08/resnet_v2_101.tgz
string modelLocation = "resnet_v2_101_299_frozen.pb";
if (!File.Exists(modelLocation))
{
var downloadTask = Download(@"https://storage.googleapis.com/download.tensorflow.org/models/tflite_11_05_08/resnet_v2_101.tgz", @"resnet_v2_101_299_frozen.tgz");
downloadTask.Wait();
modelLocation = downloadTask.Result;
Unzip(Path.Join(Directory.GetCurrentDirectory(), modelLocation),
Directory.GetCurrentDirectory());
modelLocation = "resnet_v2_101_299_frozen.pb";
}
var mlContext = new MLContext();
var data = GetTensorData();
var idv = mlContext.Data.LoadFromEnumerable(data);
// Create a ML pipeline.
using var model = mlContext.Model.LoadTensorFlowModel(modelLocation);
var pipeline = model.ScoreTensorFlowModel(
new[] { nameof(OutputScores.output) },
new[] { nameof(TensorData.input) }, addBatchDimensionInput: true);
// Run the pipeline and get the transformed values.
var estimator = pipeline.Fit(idv);
var transformedValues = estimator.Transform(idv);
// Retrieve model scores.
var outScores = mlContext.Data.CreateEnumerable<OutputScores>(
transformedValues, reuseRowObject: false);
// Display scores. (for the sake of brevity we display scores of the
// first 3 classes)
foreach (var prediction in outScores)
{
int numClasses = 0;
foreach (var classScore in prediction.output.Take(3))
{
Console.WriteLine(
$"Class #{numClasses++} score = {classScore}");
}
Console.WriteLine(new string('-', 10));
}
// Results look like below...
//Class #0 score = -0.8092947
//Class #1 score = -0.3310375
//Class #2 score = 0.1119193
//----------
//Class #0 score = -0.7807726
//Class #1 score = -0.2158062
//Class #2 score = 0.1153686
//----------
}
private const int imageHeight = 224;
private const int imageWidth = 224;
private const int numChannels = 3;
private const int inputSize = imageHeight * imageWidth * numChannels;
/// <summary>
/// A class to hold sample tensor data.
/// Member name should match the inputs that the model expects (in this
/// case, input).
/// </summary>
public class TensorData
{
[VectorType(imageHeight, imageWidth, numChannels)]
public float[] input { get; set; }
}
/// <summary>
/// Method to generate sample test data. Returns 2 sample rows.
/// </summary>
public static TensorData[] GetTensorData()
{
// This can be any numerical data. Assume image pixel values.
var image1 = Enumerable.Range(0, inputSize).Select(
x => (float)x / inputSize).ToArray();
var image2 = Enumerable.Range(0, inputSize).Select(
x => (float)(x + 10000) / inputSize).ToArray();
return new TensorData[] { new TensorData() { input = image1 },
new TensorData() { input = image2 } };
}
/// <summary>
/// Class to contain the output values from the transformation.
/// </summary>
class OutputScores
{
public float[] output { get; set; }
}
private static async Task<string> Download(string baseGitPath, string dataFile)
{
if (File.Exists(dataFile))
return dataFile;
using (HttpClient client = new HttpClient())
{
var response = await client.GetStreamAsync(new Uri($"{baseGitPath}")).ConfigureAwait(false);
using (var fs = new FileStream(dataFile, FileMode.CreateNew))
{
await response.CopyToAsync(fs).ConfigureAwait(false);
}
}
return dataFile;
}
/// <summary>
/// Taken from
/// https://github.com/icsharpcode/SharpZipLib/wiki/GZip-and-Tar-Samples.
/// </summary>
private static void Unzip(string path, string targetDir)
{
Stream inStream = File.OpenRead(path);
Stream gzipStream = new GZipInputStream(inStream);
TarArchive tarArchive = TarArchive.CreateInputTarArchive(gzipStream, Encoding.ASCII);
tarArchive.ExtractContents(targetDir);
tarArchive.Close();
gzipStream.Close();
inStream.Close();
}
}
}
Platí pro
ScoreTensorFlowModel(String[], String[], Boolean)
Vyhodnocuje datovou sadu pomocí předem natrénovaného modelu TensorFlow.
public Microsoft.ML.Transforms.TensorFlowEstimator ScoreTensorFlowModel (string[] outputColumnNames, string[] inputColumnNames, bool addBatchDimensionInput = false);member this.ScoreTensorFlowModel : string[] * string[] * bool -> Microsoft.ML.Transforms.TensorFlowEstimatorPublic Function ScoreTensorFlowModel (outputColumnNames As String(), inputColumnNames As String(), Optional addBatchDimensionInput As Boolean = false) As TensorFlowEstimatorParametry
- outputColumnNames
- String[]
Názvy požadovaných výstupů modelu
- inputColumnNames
- String[]
Názvyvstupůch
- addBatchDimensionInput
- Boolean
Přidejte do vstupu rozměr dávky, například vstup = [224, 224, 3] => [-1, 224, 224, 224, 3]. Tento parametr se používá k řešení modelů s neznámým tvarem, ale interní operátory v modelu vyžadují, aby data měla také rozměr dávky.
Návraty
Příklady
using System;
using System.IO;
using System.Linq;
using System.Net;
using System.Net.Http;
using System.Text;
using System.Threading.Tasks;
using ICSharpCode.SharpZipLib.GZip;
using ICSharpCode.SharpZipLib.Tar;
using Microsoft.ML;
using Microsoft.ML.Data;
namespace Samples.Dynamic
{
public static class ImageClassification
{
/// <summary>
/// Example use of the TensorFlow image model in a ML.NET pipeline.
/// </summary>
public static void Example()
{
// Download the ResNet 101 model from the location below.
// https://storage.googleapis.com/download.tensorflow.org/models/tflite_11_05_08/resnet_v2_101.tgz
string modelLocation = "resnet_v2_101_299_frozen.pb";
if (!File.Exists(modelLocation))
{
var downloadTask = Download(@"https://storage.googleapis.com/download.tensorflow.org/models/tflite_11_05_08/resnet_v2_101.tgz", @"resnet_v2_101_299_frozen.tgz");
downloadTask.Wait();
modelLocation = downloadTask.Result;
Unzip(Path.Join(Directory.GetCurrentDirectory(), modelLocation),
Directory.GetCurrentDirectory());
modelLocation = "resnet_v2_101_299_frozen.pb";
}
var mlContext = new MLContext();
var data = GetTensorData();
var idv = mlContext.Data.LoadFromEnumerable(data);
// Create a ML pipeline.
using var model = mlContext.Model.LoadTensorFlowModel(modelLocation);
var pipeline = model.ScoreTensorFlowModel(
new[] { nameof(OutputScores.output) },
new[] { nameof(TensorData.input) }, addBatchDimensionInput: true);
// Run the pipeline and get the transformed values.
var estimator = pipeline.Fit(idv);
var transformedValues = estimator.Transform(idv);
// Retrieve model scores.
var outScores = mlContext.Data.CreateEnumerable<OutputScores>(
transformedValues, reuseRowObject: false);
// Display scores. (for the sake of brevity we display scores of the
// first 3 classes)
foreach (var prediction in outScores)
{
int numClasses = 0;
foreach (var classScore in prediction.output.Take(3))
{
Console.WriteLine(
$"Class #{numClasses++} score = {classScore}");
}
Console.WriteLine(new string('-', 10));
}
// Results look like below...
//Class #0 score = -0.8092947
//Class #1 score = -0.3310375
//Class #2 score = 0.1119193
//----------
//Class #0 score = -0.7807726
//Class #1 score = -0.2158062
//Class #2 score = 0.1153686
//----------
}
private const int imageHeight = 224;
private const int imageWidth = 224;
private const int numChannels = 3;
private const int inputSize = imageHeight * imageWidth * numChannels;
/// <summary>
/// A class to hold sample tensor data.
/// Member name should match the inputs that the model expects (in this
/// case, input).
/// </summary>
public class TensorData
{
[VectorType(imageHeight, imageWidth, numChannels)]
public float[] input { get; set; }
}
/// <summary>
/// Method to generate sample test data. Returns 2 sample rows.
/// </summary>
public static TensorData[] GetTensorData()
{
// This can be any numerical data. Assume image pixel values.
var image1 = Enumerable.Range(0, inputSize).Select(
x => (float)x / inputSize).ToArray();
var image2 = Enumerable.Range(0, inputSize).Select(
x => (float)(x + 10000) / inputSize).ToArray();
return new TensorData[] { new TensorData() { input = image1 },
new TensorData() { input = image2 } };
}
/// <summary>
/// Class to contain the output values from the transformation.
/// </summary>
class OutputScores
{
public float[] output { get; set; }
}
private static async Task<string> Download(string baseGitPath, string dataFile)
{
if (File.Exists(dataFile))
return dataFile;
using (HttpClient client = new HttpClient())
{
var response = await client.GetStreamAsync(new Uri($"{baseGitPath}")).ConfigureAwait(false);
using (var fs = new FileStream(dataFile, FileMode.CreateNew))
{
await response.CopyToAsync(fs).ConfigureAwait(false);
}
}
return dataFile;
}
/// <summary>
/// Taken from
/// https://github.com/icsharpcode/SharpZipLib/wiki/GZip-and-Tar-Samples.
/// </summary>
private static void Unzip(string path, string targetDir)
{
Stream inStream = File.OpenRead(path);
Stream gzipStream = new GZipInputStream(inStream);
TarArchive tarArchive = TarArchive.CreateInputTarArchive(gzipStream, Encoding.ASCII);
tarArchive.ExtractContents(targetDir);
tarArchive.Close();
gzipStream.Close();
inStream.Close();
}
}
}
Platí pro
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