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TensorFlow.NET/test/TensorFlowNET.UnitTest/CreateOpFromTfOperationTest.cs

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  1. using System;

  2. using System.Collections.Generic;

  3. using System.Text;

  4. using Microsoft.VisualStudio.TestTools.UnitTesting;

  5. using Tensorflow;

  6. 

  7. namespace TensorFlowNET.UnitTest

  8. {

  9.     /// <summary>

  10.     /// excerpt of tensorflow/python/framework/ops_test.py

  11.     ///         # These cases test the private Graph._create_op_from_tf_operation

  12.     ///         # method. Arguably we should only test the public APIs that depend on this

  13.     ///         # method. However, this logic is complex and tricky, and it can be difficult to

  14.     ///         # ascertain if we have adequate coverage (e.g. a graph may run successfully if

  15.     ///         # the control flow context isn't set properly, but a more complicated use case

  16.     ///         # that might not be obvious to test will fail). Thus we instead explicitly test

  17.     ///         # the low-level behavior.

  18.     /// </summary>

  19.     [TestClass]

  20.     public class CreateOpFromTfOperationTest : PythonTest

  21.     {

  22.    

  23.         [TestMethod]

  24.         public void TestShape()

  25.         {

  26.             var graph = tf.Graph().as_default();

  27.             with<Graph>(graph, g =>

  28.             {

  29.                 var x = constant_op.constant(new [,] { {1, 2, 3}, {4, 5, 6}});

  30.                 var (c_op, op_desc) = ops._create_c_op(g, ops._NodeDef("Identity", "myop"), new[] {x}, new Operation[0]);

  31.                 var op = g._create_op_from_tf_operation(c_op);

  32. 

  33.                 Assert.AreEqual("myop", op.name);

  34.                 Assert.AreEqual("Identity", op.type);

  35.                 Assert.AreEqual(1, len(op.outputs));

  36.                 assertItemsEqual(new []{2, 3}, op.outputs[0].shape);

  37.             });

  38.         }

  39. 

  40.         [TestMethod]

  41.         public void TestUniqueName()

  42.         {

  43.             var graph = tf.Graph().as_default();

  44.             with<Graph>(graph, g =>

  45.             {

  46.                 //var (c_op,op_desc) = ops._create_c_op(g, ops._NodeDef("Const", "myop"), new Tensor[0], new Operation[0]);

  47.                 //var (c_op2, op_desc1) = ops._create_c_op(g, ops._NodeDef("Const", "myop_1"), new Tensor[0], new Operation[0]);

  48.                 //var op = g._create_op_from_tf_operation(c_op);

  49.                 //var op2 = g._create_op_from_tf_operation(c_op2);

  50.                 var op = constant_op.constant(0, name:"myop").op;

  51.                 var op2 = constant_op.constant(0, name: "myop_1").op;

  52. 

  53.                 // Create ops with same names as op1 and op2. We expect the new names to be

  54.                 // uniquified.

  55.                 var op3 = constant_op.constant(0, name: "myop").op;

  56.                 var op4 = constant_op.constant(0, name: "myop_1").op;

  57. 

  58.                 self.assertEqual(op.name, "myop");

  59.                 self.assertEqual(op2.name, "myop_1");

  60.                 self.assertEqual(op3.name, "myop_2");

  61.                 self.assertEqual(op4.name, "myop_1_1");

  62.             });

  63.         }

  64.         /*

  65.                  @test_util.run_v1_only("b/120545219")

  66.                  def testCond(self):

  67.                    g = ops.Graph()

  68.                    with g.as_default():

  69.                      x = test_ops.int_output()

  70. 

  71.                      def true_fn():

  72.                        ops._create_c_op(ops.get_default_graph(),

  73.                                         ops._NodeDef("IntInput", "cond/myop"), [x], [])

  74.                        new_ops = g._add_new_tf_operations()

  75.                        self.assertEqual(len(new_ops), 1)

  76.                        return x

  77. 

  78.                      control_flow_ops.cond(x < 10, true_fn, lambda: x)

  79. 

  80.                    op = g.get_operation_by_name("cond/myop")

  81.                    self.assertIsNotNone(op)

  82.                    self.assertEqual(op.name, "cond/myop")

  83.                    self.assertEqual(op.type, "IntInput")

  84.                    self.assertEqual(op.outputs, [])

  85.                    op_input = op.inputs[0].op

  86.                    self.assertEqual(op_input.type, "Switch")

  87.                    self.assertEqual(op_input.inputs[0], x)

  88.                    self.assertEqual(op.graph, g)

  89.                    # pylint: disable=protected-access

  90.                    self.assertIsNotNone(op._get_control_flow_context())

  91.                    self.assertEqual(op._get_control_flow_context().name,

  92.                                     "cond/cond_text")

  93.                    # pylint: enable=protected-access

  94. 

  95.                  @test_util.run_v1_only("b/120545219")

  96.                  def testWhileLoop(self):

  97.                    g = ops.Graph()

  98.                    with g.as_default():

  99.                      x = test_ops.int_output()

  100. 

  101.                      def body(i):

  102.                        ops._create_c_op(ops.get_default_graph(),

  103.                                         ops._NodeDef("IntInput", "myloop/myop"), [x], [])

  104.                        new_ops = g._add_new_tf_operations()

  105.                        self.assertEqual(len(new_ops), 1)

  106.                        return i

  107. 

  108.                      control_flow_ops.while_loop(lambda i: i < 10, body, [0], name="myloop")

  109. 

  110.                    op = g.get_operation_by_name("myloop/myop")

  111.                    self.assertIsNotNone(op)

  112.                    self.assertEqual(op.name, "myloop/myop")

  113.                    self.assertEqual(op.type, "IntInput")

  114.                    self.assertEqual(op.outputs, [])

  115.                    op_input = op.inputs[0].op

  116.                    self.assertEqual(op_input.type, "Enter")

  117.                    self.assertEqual(list(op_input.inputs), [x])

  118.                    self.assertEqual(op.graph, g)

  119.                    # pylint: disable=protected-access

  120.                    self.assertIsNotNone(op._get_control_flow_context())

  121.                    self.assertEqual(op._get_control_flow_context().name,

  122.                                     "myloop/while_context")

  123.                    # pylint: enable=protected-access

  124. 

  125.                  @test_util.run_v1_only("b/120545219")

  126.                  def testWhileLoopWithInternalControlDep(self):

  127.                    g = ops.Graph()

  128.                    with g.as_default():

  129.                      x = test_ops.int_output()

  130. 

  131.                      def body(i):

  132.                        c = constant_op.constant(1.0, name="c")

  133.                        ops._create_c_op(ops.get_default_graph(),

  134.                                         ops._NodeDef("IntInput", "myloop/myop"), [x], [])

  135.                        with ops.control_dependencies([c]):

  136.                          new_ops = g._add_new_tf_operations()

  137.                          self.assertEqual(len(new_ops), 1)

  138.                        return i

  139. 

  140.                      control_flow_ops.while_loop(lambda i: i < 10, body, [0], name="myloop")

  141. 

  142.                    op = g.get_operation_by_name("myloop/myop")

  143.                    self.assertIsNotNone(op)

  144.                    c = g.get_operation_by_name("myloop/c")

  145.                    self.assertIsNotNone(c)

  146.                    # Internal control dep is preserved

  147.                    self.assertEqual(op.control_inputs, [c])

  148. 

  149.                  @test_util.run_v1_only("b/120545219")

  150.                  def testWhileLoopWithExternalControlDep(self):

  151.                    g = ops.Graph()

  152.                    with g.as_default():

  153.                      x = test_ops.int_output()

  154.                      c = constant_op.constant(1.0)

  155. 

  156.                      def body(i):

  157.                        ops._create_c_op(ops.get_default_graph(),

  158.                                         ops._NodeDef("IntInput", "myloop/myop"), [x], [])

  159.                        with ops.control_dependencies([c]):

  160.                          new_ops = g._add_new_tf_operations()

  161.                          self.assertEqual(len(new_ops), 1)

  162.                        return i

  163. 

  164.                      control_flow_ops.while_loop(lambda i: i < 10, body, [0], name="myloop")

  165. 

  166.                    op = g.get_operation_by_name("myloop/myop")

  167.                    self.assertIsNotNone(op)

  168.                    # External control dep is removed and replaced with internal control dep

  169.                    self.assertNotEqual(op.control_inputs[0], c.op)

  170.                    self.assertIsNotNone(op.control_inputs[0]._get_control_flow_context())

  171. 

  172. 

  173.                */

  174.     }

  175.     }