public void tf_partial_shape_test() { // Note: Keras/TensorFlow represent unknown dimensions // as None, whereas TensorFlowSharp represents as -1: /* * import keras * * from keras.models import Sequential * from keras.layers import Dense * from keras import backend as K * import numpy as np * * a = K.placeholder(shape = (None, 2)) * b = K.variable(np.matrix([[ 1, 2, 3], [4, 5, 6]])) * ab = K.dot(a, b) * * shape_a = K.int_shape(a) * shape_b = K.int_shape(b) * shape_ab = K.int_shape(ab) * * print(shape_a) * print(shape_b) * print(shape_ab) * * >>> Using TensorFlow backend. * (None, 2) * (2, 3) * (None, 3) */ using (var K = new TensorFlowBackend()) { Tensor a = K.placeholder(shape: new int?[] { null, 2 }); Tensor b = K.variable(array: new float[, ] { { 1, 2, 3 }, { 4, 5, 6 } }); var ab = K.dot(a, b); int?[] shape_a = K.int_shape(a); int?[] shape_b = K.int_shape(b); int?[] shape_ab = K.int_shape(ab); long[] tf_shape_a = K.In(a).TF_Shape; long[] tf_shape_b = K.In(b).TF_Shape; long[] tf_shape_ab = K.In(ab).TF_Shape; AssertEx.AreEqual(new int?[] { null, 2 }, shape_a); AssertEx.AreEqual(new int?[] { 2, 3 }, shape_b); AssertEx.AreEqual(new int?[] { null, 3 }, shape_ab); AssertEx.AreEqual(new long[] { -1, 2 }, tf_shape_a); AssertEx.AreEqual(new long[] { 2, 3 }, tf_shape_b); AssertEx.AreEqual(new long[] { -1, 3 }, tf_shape_ab); } }
public void tf_toString_with_names() { using (var K = new TensorFlowBackend()) { var input = K.placeholder(shape: new int?[] { 2, 4, 5 }, name: "a"); double[,] val = new double[, ] { { 1, 2 }, { 3, 4 } }; var kvar = K.variable(array: (Array)val, dtype: DataType.Double, name: "b"); string a = input.ToString(); string b = kvar.ToString(); Assert.AreEqual("KerasSharp.Engine.Topology.Tensor 'a_0' shape=[2, 4, 5] dtype=Float", a); Assert.AreEqual("KerasSharp.Engine.Topology.Tensor 'b_0' shape=[2, 2] dtype=Double", b); } }
public void toString() { using (var K = new TensorFlowBackend()) { var input = K.placeholder(shape: new int?[] { 2, 4, 5 }); double[,] val = new double[, ] { { 1, 2 }, { 3, 4 } }; var kvar = K.variable(array: (Array)val); string a = input.ToString(); string b = kvar.ToString(); Assert.AreEqual("KerasSharp.Engine.Topology.Tensor 'Placeholder0_0' shape=[2, 4, 5] dtype=Float", a); Assert.AreEqual("KerasSharp.Engine.Topology.Tensor 'Const0_0' shape=[2, 2] dtype=Double", b); } }
public void tf_int_shape() { using (var K = new TensorFlowBackend()) { #region doc_int_shape var input = K.placeholder(shape: new int?[] { 2, 4, 5 }); var a = K.int_shape(input); // (2, 4, 5) var val = new[, ] { { 1, 2 }, { 3, 4 } }; var kvar = K.variable(array: val); var b = K.int_shape(kvar); //(2, 2) #endregion Assert.AreEqual(new[] { 2, 4, 5 }, a); Assert.AreEqual(new[] { 2, 2 }, b); } }
public void tf_ndim_test() { // https://github.com/fchollet/keras/blob/f65a56fb65062c8d14d215c9f4b1015b97cc5bf3/keras/backend/tensorflow_backend.py#L508 using (var K = new TensorFlowBackend()) { #region doc_ndim var input = K.placeholder(shape: new int?[] { 2, 4, 5 }); double[,] val = new double[, ] { { 1, 2 }, { 3, 4 } }; var kvar = K.variable(array: (Array)val); int?a = K.ndim(input); // 3 int?b = K.ndim(kvar); // 2 #endregion Assert.AreEqual(3, a); Assert.AreEqual(2, b); } }