399 lines
14 KiB
Python
399 lines
14 KiB
Python
# Copyright 2017 The TensorFlow Authors. All Rights Reserved.
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#
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# Licensed under the Apache License, Version 2.0 (the "License");
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# you may not use this file except in compliance with the License.
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# You may obtain a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS,
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# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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# See the License for the specific language governing permissions and
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# limitations under the License.
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# ==============================================================================
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"""Definition of XLA test case."""
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from collections.abc import Iterator
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import contextlib
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import os
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import random
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import re
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import numpy as np
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from tensorflow.core.framework import types_pb2
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from tensorflow.core.protobuf import config_pb2
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from tensorflow.core.protobuf import rewriter_config_pb2
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from tensorflow.python.client import session
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from tensorflow.python.compiler.xla import jit
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from tensorflow.python.eager import context
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from tensorflow.python.framework import dtypes
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from tensorflow.python.framework import ops
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from tensorflow.python.framework import random_seed
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from tensorflow.python.framework import test_util
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from tensorflow.python.ops import array_ops
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from tensorflow.python.ops import variables
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from tensorflow.python.platform import flags
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from tensorflow.python.platform import test
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from tensorflow.python.platform import tf_logging as logging
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FLAGS = flags.FLAGS
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flags.DEFINE_string(
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'test_device',
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None,
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'Tensorflow device on which to place operators under test',
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)
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flags.DEFINE_string('types', None, 'Types to test. Comma-separated list.')
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flags.DEFINE_string(
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'disabled_manifest',
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None,
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'Path to a file with a list of tests that should not run.',
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)
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flags.DEFINE_string(
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'tf_xla_flags',
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None,
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'Value to set the TF_XLA_FLAGS environment variable to',
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)
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def parse_disabled_manifest(manifest_content):
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comments_re = re.compile('#.*$')
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disabled_tests = []
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disabled_method_types = []
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for l in manifest_content.splitlines():
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stripped = comments_re.sub('', l).strip()
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if not stripped:
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continue
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entry = stripped.split(' ')
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if len(entry) == 1:
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disabled_tests.append(entry[0])
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elif len(entry) == 2:
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disabled_method_types.append((entry[0], entry[1].strip().split(',')))
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else:
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raise ValueError('Bad entry in manifest file.')
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disabled_regex = '|'.join(disabled_tests)
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method_types_filter = {}
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for method, types in disabled_method_types:
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method_types_filter[method] = set([
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dtypes.as_dtype(types_pb2.DataType.Value(name)).as_numpy_dtype
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for name in types
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])
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return disabled_regex, method_types_filter
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class TPURewriteSession(session.Session):
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"""Tensorflow session that runs tpu.rewrite() on ops on run()."""
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def __init__(self, *args, **kwargs):
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super().__init__(*args, **kwargs)
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self.topology = None
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def run(self, fetches, feed_dict=None, options=None, run_metadata=None):
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from tensorflow.python.tpu import tpu # pylint: disable=g-import-not-at-top
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if self.topology is None:
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self.topology = super().run(tpu.initialize_system())
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assert self.topology is not None
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fetch_mapper = session._FetchMapper.for_fetch(fetches)
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new_fetches = []
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for fetch in fetch_mapper.unique_fetches():
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if isinstance(fetch, ops.Operation):
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fetch = tpu.rewrite(lambda fetch=fetch: fetch)
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new_fetches.append(fetch)
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rewritten_fetches = fetch_mapper.build_results(new_fetches)
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return super().run(rewritten_fetches, feed_dict, options, run_metadata)
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class XLATestCase(test.TestCase):
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"""XLA test cases are parameterized test cases."""
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def __init__(self, method_name='runTest'):
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super(XLATestCase, self).__init__(method_name)
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if 'XLA' in FLAGS.test_device:
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context.context().enable_xla_devices()
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# Check if the mlir bridge has been explicitly enabled or disabled. If
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# is_mlir_bridge_enabled() returns None, the user did not explicitly enable
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# or disable the bridge so do not update enable_mlir_bridge.
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if test_util.is_mlir_bridge_enabled():
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context.context().enable_mlir_bridge = True
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elif test_util.is_mlir_bridge_enabled() is not None:
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context.context().enable_mlir_bridge = False
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self.device = FLAGS.test_device
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self.has_custom_call = self.device == 'XLA_CPU'
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# Some tests (e.g. ftrl_ops) only work if the program goes through the
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# _TPUCompileMLIR op. They will set this flag to True.
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# TODO(kramm): Flip to true (and enable MLIR bridge) for more tests.
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self.rewrite_ops_for_tpu = False
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self._all_tf_types = set([
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dtypes.as_dtype(types_pb2.DataType.Value(name))
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for name in FLAGS.types.split(',')
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])
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self.int_tf_types = set(
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[dtype for dtype in self._all_tf_types if dtype.is_integer]
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)
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self._float_tf_types = set(
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[dtype for dtype in self._all_tf_types if dtype.is_floating]
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)
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self.complex_tf_types = set(
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[dtype for dtype in self._all_tf_types if dtype.is_complex]
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)
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self._numeric_tf_types = set(
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self.int_tf_types | self._float_tf_types | self.complex_tf_types
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)
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self.quantized_tf_types = set(
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dtype for dtype in self._all_tf_types if dtype.is_quantized
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)
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# Quantized types don't have a numpy equivalent, include them in
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# all_tf_types but not in all_types.
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# TODO(b/115960798): Parametrize tests on TF types instead of numpy types
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# and remove all_types.
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self._all_types = set(
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dtype.as_numpy_dtype
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for dtype in self._all_tf_types
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if not dtype.is_quantized
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)
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self._int_types = set([dtype.as_numpy_dtype for dtype in self.int_tf_types])
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self.signed_int_types = set(
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dtype.as_numpy_dtype
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for dtype in self.int_tf_types
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if not dtype.is_unsigned
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)
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self.unsigned_int_types = set(
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dtype.as_numpy_dtype for dtype in self.int_tf_types if dtype.is_unsigned
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)
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self._float_types = set(
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[dtype.as_numpy_dtype for dtype in self._float_tf_types]
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)
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self.complex_types = set(
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[dtype.as_numpy_dtype for dtype in self.complex_tf_types]
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)
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self._numeric_types = set(
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self._int_types | self._float_types | self.complex_types
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)
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# Parse the manifest file, if any, into a regex identifying tests to
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# disable
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# TODO(xpan): Make it text proto if it doesn't scale.
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# Each line of the manifest file specifies an entry. The entry can be
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# 1) TestNameRegex // E.g. CumprodTest.* Or
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# 2) TestName TypeName // E.g. AdamOptimizerTest.testSharing DT_BFLOAT16
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# The 1) disables the entire test. While 2) only filter some numeric types
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# so that they are not used in those tests.
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self.disabled_regex = None
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self._method_types_filter = {}
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if FLAGS.disabled_manifest is not None:
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with open(FLAGS.disabled_manifest, 'r') as manifest_file:
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disabled_regex, self._method_types_filter = parse_disabled_manifest(
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manifest_file.read()
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)
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if disabled_regex:
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self.disabled_regex = re.compile(disabled_regex)
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if FLAGS.tf_xla_flags is not None:
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os.environ['TF_XLA_FLAGS'] = FLAGS.tf_xla_flags
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@property
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def all_tf_types(self):
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name = '{}.{}'.format(type(self).__name__, self._testMethodName)
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tf_types = set(
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[dtypes.as_dtype(t) for t in self._method_types_filter.get(name, set())]
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)
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return self._all_tf_types - tf_types
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@property
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def float_types(self):
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name = '{}.{}'.format(type(self).__name__, self._testMethodName)
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return self._float_types - self._method_types_filter.get(name, set())
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@property
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def float_tf_types(self):
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name = '{}.{}'.format(type(self).__name__, self._testMethodName)
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return self._float_tf_types - self._method_types_filter.get(name, set())
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@property
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def int_types(self):
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name = '{}.{}'.format(type(self).__name__, self._testMethodName)
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return self._int_types - self._method_types_filter.get(name, set())
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@property
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def numeric_tf_types(self):
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name = '{}.{}'.format(type(self).__name__, self._testMethodName)
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tf_types = set(
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[dtypes.as_dtype(t) for t in self._method_types_filter.get(name, set())]
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)
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return self._numeric_tf_types - tf_types
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@property
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def numeric_types(self):
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name = '{}.{}'.format(type(self).__name__, self._testMethodName)
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return self._numeric_types - self._method_types_filter.get(name, set())
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@property
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def all_types(self):
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name = '{}.{}'.format(type(self).__name__, self._testMethodName)
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return self._all_types - self._method_types_filter.get(name, set())
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def setUp(self):
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super(XLATestCase, self).setUp()
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name = '{}.{}'.format(type(self).__name__, self._testMethodName)
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if self.disabled_regex is not None and self.disabled_regex.match(name):
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logging.info('Disabled test case: %s', name)
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self.skipTest('{} is disabled by manifest.'.format(name))
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return
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logging.info('Start test case: %s', name)
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random.seed(random_seed.DEFAULT_GRAPH_SEED)
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np.random.seed(random_seed.DEFAULT_GRAPH_SEED)
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def tearDown(self):
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super(XLATestCase, self).tearDown()
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logging.info('End test case: %s', self._testMethodName)
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@contextlib.contextmanager
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def session(self) -> Iterator[session.Session]:
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"""Custom implementation of session() for XLA tests.
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We override the standard Tensorflow session() since it is too
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specific to CPU and GPU tests. In particular, we want to disable soft
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placement and explicitly assign ops to devices under test.
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Yields:
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A session to use when running a test case.
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"""
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graph = ops.Graph()
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config = context.context().config
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# Grappler can constant fold TensorListFromTensor ops into DT_VARIANT
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# constants which XLA does not understand. So disable constant folding in
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# these tests.
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config.graph_options.rewrite_options.constant_folding = (
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rewriter_config_pb2.RewriterConfig.OFF
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)
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if self.rewrite_ops_for_tpu:
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session_type = TPURewriteSession
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else:
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session_type = session.Session
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with session_type(graph=graph, config=config) as sess, graph.as_default():
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yield sess
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def cached_session(self):
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raise NotImplementedError(
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'cached_session not supported on XLATestCase, please use session'
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)
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def test_session(self):
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raise NotImplementedError(
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'test_session not supported on XLATestCase, please use session'
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)
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@contextlib.contextmanager
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def device_scope(self):
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"""Scope that runs tests on `self.device`.
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Yields:
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A scope to apply to the operators under test.
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"""
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with ops.device('device:{}:0'.format(self.device)):
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yield
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def assert_op_output_matches_expected(
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self, op, inp, expected, local_session,
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equality_test=None, rtol=1e-3, atol=1e-5
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):
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"""Verifies that 'op' produces 'expected' when fed input 'inp' .
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Args:
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op: operator to test
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inp: numpy input array to use as input to 'op'.
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expected: numpy array representing the expected output of 'op'.
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local_session: The session to use for the test.
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equality_test: either None, or a function that tests two numpy arrays for
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equality. If None, self.assertAllClose is used.
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rtol: relative tolerance for equality test.
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atol: absolute tolerance for equality test.
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"""
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with self.test_scope():
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pinp = array_ops.placeholder(
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dtypes.as_dtype(inp.dtype), inp.shape, name='a'
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)
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output = op(pinp)
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result = local_session.run(output, {pinp: inp})
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if equality_test is None:
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self.assertEqual(output.dtype, expected.dtype)
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self.assertAllCloseAccordingToType(
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expected, result, rtol=rtol, atol=atol, bfloat16_rtol=0.03
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)
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else:
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equality_test(result, expected, rtol=rtol, atol=atol)
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def test_scope(self):
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"""Deprecated alias of `device_scope`.
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This should be avoided as the name starts with `test`, so test runners
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treat it as a test. This interferes with class decorators that operate on
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each test method.
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"""
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return self.device_scope()
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def Benchmark(
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tf_bench, builder_fn, use_xla_jit, device, separate_compiled_gradients=False
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):
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"""Build a graph and run benchmarks against it, with or without XLA.
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Args:
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tf_bench: An instance of tf.test.Benchmark, used to run the benchmark.
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builder_fn: A function that builds a graph when invoked, and returns (name,
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fetches), where name is the name of the test, and fetches is a list of
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tensors to fetch as output.
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use_xla_jit: If true compile with the XLA JIT, otherwise use regular TF.
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device: The tensorflow device to run on, e.g. "cpu", "gpu".
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separate_compiled_gradients: If true put each gradient subgraph into a
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separate compilation scope. This gives fine-grained control over which
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portions of the graph will be compiled as a single unit. Compiling
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gradients separately may yield better performance for some graphs. The
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scope is named based on the scope of the forward computation as well as
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the name of the gradients. As a result, the gradients will be compiled in
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a scope that is separate from both the forward computation, and from other
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gradients.
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"""
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with ops.Graph().as_default():
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name = None
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targets = []
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with ops.device(device):
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fetches = []
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jit_scope = jit.experimental_jit_scope
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with jit_scope(
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compile_ops=use_xla_jit,
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separate_compiled_gradients=separate_compiled_gradients,
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):
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name, fetches = builder_fn()
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# We only want to benchmark the operations themselves, and not the data
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# transfer of the result(s). Non-compiled identity ops ensure XLA
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# doesn't know we're dropping the results, otherwise it might compile
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# away the entire computation.
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for fetch in fetches:
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targets.append(array_ops.identity(fetch).op)
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# TODO(b/132430685): Should we allow soft placement here?
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config = config_pb2.ConfigProto(allow_soft_placement=True)
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with session.Session(config=config) as sess:
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sess.run(variables.global_variables_initializer())
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xla = 'xla_' if use_xla_jit else ''
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tf_bench.run_op_benchmark(
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sess, targets, name='%s_%s%s' % (name, xla, device)
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)
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