scisharp
/
TensorFlow.NET
Not watched
1
0
Fork 0
Code
Releases 21 Wiki evaluate Activity
Issues 0 Pull Requests 0 Datasets Model Cloudbrain HPC
You can not select more than 25 topics Topics must start with a chinese character,a letter or number, can include dashes ('-') and can be up to 35 characters long.
Tree: 03b44c3b50
Branches Tags
${ item.name }
Create branch ${ searchTerm }
from '03b44c3b50'
${ noResults }
TensorFlow.NET/test/TensorFlowNET.Keras.UnitTest/Model/ModelLoadTest.cs

128 lines
4.2 kB
Raw Blame History 

  1. using Microsoft.VisualStudio.TestPlatform.Utilities;

  2. using Microsoft.VisualStudio.TestTools.UnitTesting;

  3. using System.Linq;

  4. using Tensorflow.Keras.Engine;

  5. using Tensorflow.Keras.Optimizers;

  6. using Tensorflow.Keras.UnitTest.Helpers;

  7. using Tensorflow.NumPy;

  8. using static Tensorflow.Binding;

  9. using static Tensorflow.KerasApi;

  10. 

  11. namespace Tensorflow.Keras.UnitTest.Model;

  12. 

  13. [TestClass]

  14. public class ModelLoadTest

  15. {

  16.     [TestMethod]

  17.     public void SimpleModelFromAutoCompile()

  18.     {

  19.         var model = tf.keras.models.load_model(@"Assets/simple_model_from_auto_compile");

  20.         model.summary();

  21. 

  22.         model.compile(new Adam(0.0001f), tf.keras.losses.SparseCategoricalCrossentropy(), new string[] { "accuracy" });

  23. 

  24.         // check the weights

  25.         var kernel1 = np.load(@"Assets/simple_model_from_auto_compile/kernel1.npy");

  26.         var bias0 = np.load(@"Assets/simple_model_from_auto_compile/bias0.npy");

  27. 

  28.         Assert.IsTrue(kernel1.Zip(model.TrainableWeights[2].numpy()).All(x => x.First == x.Second));

  29.         Assert.IsTrue(bias0.Zip(model.TrainableWeights[1].numpy()).All(x => x.First == x.Second));

  30. 

  31.         var data_loader = new MnistModelLoader();

  32.         var num_epochs = 1;

  33.         var batch_size = 8;

  34. 

  35.         var dataset = data_loader.LoadAsync(new ModelLoadSetting

  36.         {

  37.             TrainDir = "mnist",

  38.             OneHot = false,

  39.             ValidationSize = 58000,

  40.         }).Result;

  41. 

  42.         model.fit(dataset.Train.Data, dataset.Train.Labels, batch_size, num_epochs);

  43.     }

  44. 

  45.     [TestMethod]

  46.     public void AlexnetFromSequential()

  47.     {

  48.         new ModelSaveTest().AlexnetFromSequential();

  49.         var model = tf.keras.models.load_model(@"./alexnet_from_sequential");

  50.         model.summary();

  51. 

  52.         model.compile(new Adam(0.001f), tf.keras.losses.SparseCategoricalCrossentropy(from_logits: true), new string[] { "accuracy" });

  53. 

  54.         var num_epochs = 1;

  55.         var batch_size = 8;

  56. 

  57.         var dataset = new RandomDataSet(new Shape(227, 227, 3), 16);

  58. 

  59.         model.fit(dataset.Data, dataset.Labels, batch_size, num_epochs);

  60.     }

  61. 

  62.     [TestMethod]

  63.     public void ModelWithSelfDefinedModule()

  64.     {

  65.         var model = tf.keras.models.load_model(@"Assets/python_func_model");

  66.         model.summary();

  67. 

  68.         model.compile(tf.keras.optimizers.Adam(), tf.keras.losses.SparseCategoricalCrossentropy(), new string[] { "accuracy" });

  69. 

  70.         var data_loader = new MnistModelLoader();

  71.         var num_epochs = 1;

  72.         var batch_size = 8;

  73. 

  74.         var dataset = data_loader.LoadAsync(new ModelLoadSetting

  75.         {

  76.             TrainDir = "mnist",

  77.             OneHot = false,

  78.             ValidationSize = 55000,

  79.         }).Result;

  80. 

  81.         model.fit(dataset.Train.Data, dataset.Train.Labels, batch_size, num_epochs);

  82.     }

  83. 

  84.     [Ignore]

  85.     [TestMethod]

  86.     public void LSTMLoad()

  87.     {

  88.         var model = tf.keras.models.load_model(@"Assets/lstm_from_sequential");

  89.         model.summary();

  90.         model.compile(tf.keras.optimizers.Adam(), tf.keras.losses.MeanSquaredError(), new string[] { "accuracy" });

  91.         var inputs = tf.random.normal(shape: (10, 5, 3));

  92.         var outputs = tf.random.normal(shape: (10, 1));

  93.         model.fit(inputs.numpy(), outputs.numpy(), batch_size: 10, epochs: 5, workers: 16, use_multiprocessing: true);

  94.     }

  95. 

  96.     [Ignore]

  97.     [TestMethod]

  98.     public void VGG19()

  99.     {

  100.         var model = tf.keras.models.load_model(@"D:\development\tf.net\models\VGG19");

  101.         model.summary();

  102. 

  103.         var classify_model = keras.Sequential(new System.Collections.Generic.List<ILayer>()

  104.         {

  105.             model,

  106.             keras.layers.Flatten(),

  107.             keras.layers.Dense(10),

  108.         });

  109.         classify_model.summary();

  110. 

  111.         classify_model.compile(tf.keras.optimizers.Adam(), tf.keras.losses.SparseCategoricalCrossentropy(), new string[] { "accuracy" });

  112. 

  113.         var x = np.random.uniform(0, 1, (8, 512, 512, 3));

  114.         var y = np.ones(8);

  115. 

  116.         classify_model.fit(x, y, batch_size: 4);

  117.     }

  118. 

  119.     [Ignore]

  120.     [TestMethod]

  121.     public void TestModelBeforeTF2_5()

  122.     {

  123.         var a = keras.layers;

  124.         var model = tf.saved_model.load(@"D:\development\temp\saved_model") as Tensorflow.Keras.Engine.Model;

  125.         model.summary();

  126.     }

  127. }