# Copyright 2016 The TensorFlow Authors. All Rights Reserved. # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. # ============================================================================== """Tests for TensorFlow Debugger (tfdbg) Utilities.""" from __future__ import absolute_import from __future__ import division from __future__ import print_function import numpy as np from tensorflow.core.protobuf import config_pb2 from tensorflow.python.client import session from tensorflow.python.debug.lib import debug_utils from tensorflow.python.framework import constant_op from tensorflow.python.framework import test_util from tensorflow.python.ops import math_ops # Import resource_variable_ops for the variables-to-tensor implicit conversion. from tensorflow.python.ops import resource_variable_ops # pylint: disable=unused-import from tensorflow.python.ops import variables from tensorflow.python.platform import googletest class DebugUtilsTest(test_util.TensorFlowTestCase): @classmethod def setUpClass(cls): cls._sess = session.Session() with cls._sess: cls._a_init_val = np.array([[5.0, 3.0], [-1.0, 0.0]]) cls._b_init_val = np.array([[2.0], [-1.0]]) cls._c_val = np.array([[-4.0], [np.nan]]) cls._a_init = constant_op.constant( cls._a_init_val, shape=[2, 2], name="a1_init") cls._b_init = constant_op.constant( cls._b_init_val, shape=[2, 1], name="b_init") cls._a = variables.Variable(cls._a_init, name="a1") cls._b = variables.Variable(cls._b_init, name="b") cls._c = constant_op.constant(cls._c_val, shape=[2, 1], name="c") # Matrix product of a and b. cls._p = math_ops.matmul(cls._a, cls._b, name="p1") # Sum of two vectors. cls._s = math_ops.add(cls._p, cls._c, name="s") cls._graph = cls._sess.graph # These are all the expected nodes in the graph: # Two variables (a, b), each with four nodes (Variable, init, Assign, # read). # One constant (c). # One add operation and one matmul operation. cls._expected_num_nodes = 4 * 2 + 1 + 1 + 1 def setUp(self): self._run_options = config_pb2.RunOptions() def _verify_watches(self, watch_opts, expected_output_slot, expected_debug_ops, expected_debug_urls): """Verify a list of debug tensor watches. This requires all watches in the watch list have exactly the same output_slot, debug_ops and debug_urls. Args: watch_opts: Repeated protobuf field of DebugTensorWatch. expected_output_slot: Expected output slot index, as an integer. expected_debug_ops: Expected debug ops, as a list of strings. expected_debug_urls: Expected debug URLs, as a list of strings. Returns: List of node names from the list of debug tensor watches. """ node_names = [] for watch in watch_opts: node_names.append(watch.node_name) self.assertEqual(expected_output_slot, watch.output_slot) self.assertEqual(expected_debug_ops, watch.debug_ops) self.assertEqual(expected_debug_urls, watch.debug_urls) return node_names def testAddDebugTensorWatches_defaultDebugOp(self): debug_utils.add_debug_tensor_watch( self._run_options, "foo/node_a", 1, debug_urls="file:///tmp/tfdbg_1") debug_utils.add_debug_tensor_watch( self._run_options, "foo/node_b", 0, debug_urls="file:///tmp/tfdbg_2") debug_watch_opts = self._run_options.debug_options.debug_tensor_watch_opts self.assertEqual(2, len(debug_watch_opts)) watch_0 = debug_watch_opts[0] watch_1 = debug_watch_opts[1] self.assertEqual("foo/node_a", watch_0.node_name) self.assertEqual(1, watch_0.output_slot) self.assertEqual("foo/node_b", watch_1.node_name) self.assertEqual(0, watch_1.output_slot) # Verify default debug op name. self.assertEqual(["DebugIdentity"], watch_0.debug_ops) self.assertEqual(["DebugIdentity"], watch_1.debug_ops) # Verify debug URLs. self.assertEqual(["file:///tmp/tfdbg_1"], watch_0.debug_urls) self.assertEqual(["file:///tmp/tfdbg_2"], watch_1.debug_urls) def testAddDebugTensorWatches_explicitDebugOp(self): debug_utils.add_debug_tensor_watch( self._run_options, "foo/node_a", 0, debug_ops="DebugNanCount", debug_urls="file:///tmp/tfdbg_1") debug_watch_opts = self._run_options.debug_options.debug_tensor_watch_opts self.assertEqual(1, len(debug_watch_opts)) watch_0 = debug_watch_opts[0] self.assertEqual("foo/node_a", watch_0.node_name) self.assertEqual(0, watch_0.output_slot) # Verify default debug op name. self.assertEqual(["DebugNanCount"], watch_0.debug_ops) # Verify debug URLs. self.assertEqual(["file:///tmp/tfdbg_1"], watch_0.debug_urls) def testAddDebugTensorWatches_multipleDebugOps(self): debug_utils.add_debug_tensor_watch( self._run_options, "foo/node_a", 0, debug_ops=["DebugNanCount", "DebugIdentity"], debug_urls="file:///tmp/tfdbg_1") debug_watch_opts = self._run_options.debug_options.debug_tensor_watch_opts self.assertEqual(1, len(debug_watch_opts)) watch_0 = debug_watch_opts[0] self.assertEqual("foo/node_a", watch_0.node_name) self.assertEqual(0, watch_0.output_slot) # Verify default debug op name. self.assertEqual(["DebugNanCount", "DebugIdentity"], watch_0.debug_ops) # Verify debug URLs. self.assertEqual(["file:///tmp/tfdbg_1"], watch_0.debug_urls) def testAddDebugTensorWatches_multipleURLs(self): debug_utils.add_debug_tensor_watch( self._run_options, "foo/node_a", 0, debug_ops="DebugNanCount", debug_urls=["file:///tmp/tfdbg_1", "file:///tmp/tfdbg_2"]) debug_watch_opts = self._run_options.debug_options.debug_tensor_watch_opts self.assertEqual(1, len(debug_watch_opts)) watch_0 = debug_watch_opts[0] self.assertEqual("foo/node_a", watch_0.node_name) self.assertEqual(0, watch_0.output_slot) # Verify default debug op name. self.assertEqual(["DebugNanCount"], watch_0.debug_ops) # Verify debug URLs. self.assertEqual(["file:///tmp/tfdbg_1", "file:///tmp/tfdbg_2"], watch_0.debug_urls) def testWatchGraph_allNodes(self): debug_utils.watch_graph( self._run_options, self._graph, debug_ops=["DebugIdentity", "DebugNanCount"], debug_urls="file:///tmp/tfdbg_1") debug_watch_opts = self._run_options.debug_options.debug_tensor_watch_opts self.assertEqual(self._expected_num_nodes, len(debug_watch_opts)) # Verify that each of the nodes in the graph with output tensors in the # graph have debug tensor watch. node_names = self._verify_watches(debug_watch_opts, 0, ["DebugIdentity", "DebugNanCount"], ["file:///tmp/tfdbg_1"]) # Verify the node names. self.assertTrue("a1_init" in node_names) self.assertTrue("a1" in node_names) self.assertTrue("a1/Assign" in node_names) self.assertTrue("a1/read" in node_names) self.assertTrue("b_init" in node_names) self.assertTrue("b" in node_names) self.assertTrue("b/Assign" in node_names) self.assertTrue("b/read" in node_names) self.assertTrue("c" in node_names) self.assertTrue("p1" in node_names) self.assertTrue("s" in node_names) def testWatchGraph_nodeNameWhitelist(self): debug_utils.watch_graph( self._run_options, self._graph, debug_urls="file:///tmp/tfdbg_1", node_name_regex_whitelist="(a1$|a1_init$|a1/.*|p1$)") node_names = self._verify_watches( self._run_options.debug_options.debug_tensor_watch_opts, 0, ["DebugIdentity"], ["file:///tmp/tfdbg_1"]) self.assertEqual( sorted(["a1_init", "a1", "a1/Assign", "a1/read", "p1"]), sorted(node_names)) def testWatchGraph_opTypeWhitelist(self): debug_utils.watch_graph( self._run_options, self._graph, debug_urls="file:///tmp/tfdbg_1", op_type_regex_whitelist="(Variable|MatMul)") node_names = self._verify_watches( self._run_options.debug_options.debug_tensor_watch_opts, 0, ["DebugIdentity"], ["file:///tmp/tfdbg_1"]) self.assertEqual(sorted(["a1", "b", "p1"]), sorted(node_names)) def testWatchGraph_nodeNameAndOpTypeWhitelists(self): debug_utils.watch_graph( self._run_options, self._graph, debug_urls="file:///tmp/tfdbg_1", node_name_regex_whitelist="([a-z]+1$)", op_type_regex_whitelist="(MatMul)") node_names = self._verify_watches( self._run_options.debug_options.debug_tensor_watch_opts, 0, ["DebugIdentity"], ["file:///tmp/tfdbg_1"]) self.assertEqual(["p1"], node_names) def testWatchGraph_tensorDTypeWhitelist(self): debug_utils.watch_graph( self._run_options, self._graph, debug_urls="file:///tmp/tfdbg_1", tensor_dtype_regex_whitelist=".*_ref") node_names = self._verify_watches( self._run_options.debug_options.debug_tensor_watch_opts, 0, ["DebugIdentity"], ["file:///tmp/tfdbg_1"]) self.assertItemsEqual(["a1", "a1/Assign", "b", "b/Assign"], node_names) def testWatchGraph_nodeNameAndTensorDTypeWhitelists(self): debug_utils.watch_graph( self._run_options, self._graph, debug_urls="file:///tmp/tfdbg_1", node_name_regex_whitelist="^a.*", tensor_dtype_regex_whitelist=".*_ref") node_names = self._verify_watches( self._run_options.debug_options.debug_tensor_watch_opts, 0, ["DebugIdentity"], ["file:///tmp/tfdbg_1"]) self.assertItemsEqual(["a1", "a1/Assign"], node_names) def testWatchGraph_nodeNameBlacklist(self): debug_utils.watch_graph_with_blacklists( self._run_options, self._graph, debug_urls="file:///tmp/tfdbg_1", node_name_regex_blacklist="(a1$|a1_init$|a1/.*|p1$)") node_names = self._verify_watches( self._run_options.debug_options.debug_tensor_watch_opts, 0, ["DebugIdentity"], ["file:///tmp/tfdbg_1"]) self.assertEqual( sorted(["b_init", "b", "b/Assign", "b/read", "c", "s"]), sorted(node_names)) def testWatchGraph_opTypeBlacklist(self): debug_utils.watch_graph_with_blacklists( self._run_options, self._graph, debug_urls="file:///tmp/tfdbg_1", op_type_regex_blacklist="(Variable|Identity|Assign|Const)") node_names = self._verify_watches( self._run_options.debug_options.debug_tensor_watch_opts, 0, ["DebugIdentity"], ["file:///tmp/tfdbg_1"]) self.assertEqual(sorted(["p1", "s"]), sorted(node_names)) def testWatchGraph_nodeNameAndOpTypeBlacklists(self): debug_utils.watch_graph_with_blacklists( self._run_options, self._graph, debug_urls="file:///tmp/tfdbg_1", node_name_regex_blacklist="p1$", op_type_regex_blacklist="(Variable|Identity|Assign|Const)") node_names = self._verify_watches( self._run_options.debug_options.debug_tensor_watch_opts, 0, ["DebugIdentity"], ["file:///tmp/tfdbg_1"]) self.assertEqual(["s"], node_names) def testWatchGraph_tensorDTypeBlacklists(self): debug_utils.watch_graph_with_blacklists( self._run_options, self._graph, debug_urls="file:///tmp/tfdbg_1", tensor_dtype_regex_blacklist=".*_ref") node_names = self._verify_watches( self._run_options.debug_options.debug_tensor_watch_opts, 0, ["DebugIdentity"], ["file:///tmp/tfdbg_1"]) self.assertNotIn("a1", node_names) self.assertNotIn("a1/Assign", node_names) self.assertNotIn("b", node_names) self.assertNotIn("b/Assign", node_names) self.assertIn("s", node_names) def testWatchGraph_nodeNameAndTensorDTypeBlacklists(self): debug_utils.watch_graph_with_blacklists( self._run_options, self._graph, debug_urls="file:///tmp/tfdbg_1", node_name_regex_blacklist="^s$", tensor_dtype_regex_blacklist=".*_ref") node_names = self._verify_watches( self._run_options.debug_options.debug_tensor_watch_opts, 0, ["DebugIdentity"], ["file:///tmp/tfdbg_1"]) self.assertNotIn("a1", node_names) self.assertNotIn("a1/Assign", node_names) self.assertNotIn("b", node_names) self.assertNotIn("b/Assign", node_names) self.assertNotIn("s", node_names) if __name__ == "__main__": googletest.main()