utils.py
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# Copyright 2016 Google Inc. 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.
"""Contains a collection of util functions for training and evaluating."""
import numpy
import tensorflow as tf
from tensorflow import logging
try:
xrange # Python 2
except NameError:
xrange = range # Python 3
def Dequantize(feat_vector, max_quantized_value=2, min_quantized_value=-2):
"""Dequantize the feature from the byte format to the float format.
Args:
feat_vector: the input 1-d vector.
max_quantized_value: the maximum of the quantized value.
min_quantized_value: the minimum of the quantized value.
Returns:
A float vector which has the same shape as feat_vector.
"""
assert max_quantized_value > min_quantized_value
quantized_range = max_quantized_value - min_quantized_value
scalar = quantized_range / 255.0
bias = (quantized_range / 512.0) + min_quantized_value
return feat_vector * scalar + bias
def MakeSummary(name, value):
"""Creates a tf.Summary proto with the given name and value."""
summary = tf.Summary()
val = summary.value.add()
val.tag = str(name)
val.simple_value = float(value)
return summary
def AddGlobalStepSummary(summary_writer,
global_step_val,
global_step_info_dict,
summary_scope="Eval"):
"""Add the global_step summary to the Tensorboard.
Args:
summary_writer: Tensorflow summary_writer.
global_step_val: a int value of the global step.
global_step_info_dict: a dictionary of the evaluation metrics calculated for
a mini-batch.
summary_scope: Train or Eval.
Returns:
A string of this global_step summary
"""
this_hit_at_one = global_step_info_dict["hit_at_one"]
this_perr = global_step_info_dict["perr"]
this_loss = global_step_info_dict["loss"]
examples_per_second = global_step_info_dict.get("examples_per_second", -1)
summary_writer.add_summary(
MakeSummary("GlobalStep/" + summary_scope + "_Hit@1", this_hit_at_one),
global_step_val)
summary_writer.add_summary(
MakeSummary("GlobalStep/" + summary_scope + "_Perr", this_perr),
global_step_val)
summary_writer.add_summary(
MakeSummary("GlobalStep/" + summary_scope + "_Loss", this_loss),
global_step_val)
if examples_per_second != -1:
summary_writer.add_summary(
MakeSummary("GlobalStep/" + summary_scope + "_Example_Second",
examples_per_second), global_step_val)
summary_writer.flush()
info = (
"global_step {0} | Batch Hit@1: {1:.3f} | Batch PERR: {2:.3f} | Batch "
"Loss: {3:.3f} | Examples_per_sec: {4:.3f}").format(
global_step_val, this_hit_at_one, this_perr, this_loss,
examples_per_second)
return info
def AddEpochSummary(summary_writer,
global_step_val,
epoch_info_dict,
summary_scope="Eval"):
"""Add the epoch summary to the Tensorboard.
Args:
summary_writer: Tensorflow summary_writer.
global_step_val: a int value of the global step.
epoch_info_dict: a dictionary of the evaluation metrics calculated for the
whole epoch.
summary_scope: Train or Eval.
Returns:
A string of this global_step summary
"""
epoch_id = epoch_info_dict["epoch_id"]
avg_hit_at_one = epoch_info_dict["avg_hit_at_one"]
avg_perr = epoch_info_dict["avg_perr"]
avg_loss = epoch_info_dict["avg_loss"]
aps = epoch_info_dict["aps"]
gap = epoch_info_dict["gap"]
mean_ap = numpy.mean(aps)
summary_writer.add_summary(
MakeSummary("Epoch/" + summary_scope + "_Avg_Hit@1", avg_hit_at_one),
global_step_val)
summary_writer.add_summary(
MakeSummary("Epoch/" + summary_scope + "_Avg_Perr", avg_perr),
global_step_val)
summary_writer.add_summary(
MakeSummary("Epoch/" + summary_scope + "_Avg_Loss", avg_loss),
global_step_val)
summary_writer.add_summary(
MakeSummary("Epoch/" + summary_scope + "_MAP", mean_ap), global_step_val)
summary_writer.add_summary(
MakeSummary("Epoch/" + summary_scope + "_GAP", gap), global_step_val)
summary_writer.flush()
info = ("epoch/eval number {0} | Avg_Hit@1: {1:.3f} | Avg_PERR: {2:.3f} "
"| MAP: {3:.3f} | GAP: {4:.3f} | Avg_Loss: {5:3f} | num_classes: {6}"
).format(epoch_id, avg_hit_at_one, avg_perr, mean_ap, gap, avg_loss,
len(aps))
return info
def GetListOfFeatureNamesAndSizes(feature_names, feature_sizes):
"""Extract the list of feature names and the dimensionality of each feature
from string of comma separated values.
Args:
feature_names: string containing comma separated list of feature names
feature_sizes: string containing comma separated list of feature sizes
Returns:
List of the feature names and list of the dimensionality of each feature.
Elements in the first/second list are strings/integers.
"""
feature_sizes = str(feature_sizes)
list_of_feature_names = [
feature_names.strip() for feature_names in feature_names.split(",")
]
list_of_feature_sizes = [
int(feature_sizes) for feature_sizes in feature_sizes.split(",")
]
if len(list_of_feature_names) != len(list_of_feature_sizes):
logging.error("length of the feature names (=" +
str(len(list_of_feature_names)) + ") != length of feature "
"sizes (=" + str(len(list_of_feature_sizes)) + ")")
return list_of_feature_names, list_of_feature_sizes
def clip_gradient_norms(gradients_to_variables, max_norm):
"""Clips the gradients by the given value.
Args:
gradients_to_variables: A list of gradient to variable pairs (tuples).
max_norm: the maximum norm value.
Returns:
A list of clipped gradient to variable pairs.
"""
clipped_grads_and_vars = []
for grad, var in gradients_to_variables:
if grad is not None:
if isinstance(grad, tf.IndexedSlices):
tmp = tf.clip_by_norm(grad.values, max_norm)
grad = tf.IndexedSlices(tmp, grad.indices, grad.dense_shape)
else:
grad = tf.clip_by_norm(grad, max_norm)
clipped_grads_and_vars.append((grad, var))
return clipped_grads_and_vars
def combine_gradients(tower_grads):
"""Calculate the combined gradient for each shared variable across all towers.
Note that this function provides a synchronization point across all towers.
Args:
tower_grads: List of lists of (gradient, variable) tuples. The outer list is
over individual gradients. The inner list is over the gradient calculation
for each tower.
Returns:
List of pairs of (gradient, variable) where the gradient has been summed
across all towers.
"""
filtered_grads = [
[x for x in grad_list if x[0] is not None] for grad_list in tower_grads
]
final_grads = []
for i in xrange(len(filtered_grads[0])):
grads = [filtered_grads[t][i] for t in xrange(len(filtered_grads))]
grad = tf.stack([x[0] for x in grads], 0)
grad = tf.reduce_sum(grad, 0)
final_grads.append((
grad,
filtered_grads[0][i][1],
))
return final_grads