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data.py
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data.py
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# coding=utf-8
# Copyright 2020 The SimCLR Authors.
#
# 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 simclr governing permissions and
# limitations under the License.
# ==============================================================================
"""Data pipeline."""
from __future__ import absolute_import
from __future__ import division
from __future__ import print_function
import functools
from absl import flags
import data_util as data_util
import tensorflow.compat.v1 as tf
FLAGS = flags.FLAGS
def pad_to_batch(dataset, batch_size):
"""Pad Tensors to specified batch size.
Args:
dataset: An instance of tf.data.Dataset.
batch_size: The number of samples per batch of input requested.
Returns:
An instance of tf.data.Dataset that yields the same Tensors with the same
structure as the original padded to batch_size along the leading
dimension.
Raises:
ValueError: If the dataset does not comprise any tensors; if a tensor
yielded by the dataset has an unknown number of dimensions or is a
scalar; or if it can be statically determined that tensors comprising
a single dataset element will have different leading dimensions.
"""
def _pad_to_batch(*args):
"""Given Tensors yielded by a Dataset, pads all to the batch size."""
flat_args = tf.nest.flatten(args)
for tensor in flat_args:
if tensor.shape.ndims is None:
raise ValueError(
'Unknown number of dimensions for tensor %s.' % tensor.name)
if tensor.shape.ndims == 0:
raise ValueError('Tensor %s is a scalar.' % tensor.name)
# This will throw if flat_args is empty. However, as of this writing,
# tf.data.Dataset.map will throw first with an internal error, so we do
# not check this case explicitly.
first_tensor = flat_args[0]
first_tensor_shape = tf.shape(first_tensor)
first_tensor_batch_size = first_tensor_shape[0]
difference = batch_size - first_tensor_batch_size
for i, tensor in enumerate(flat_args):
control_deps = []
if i != 0:
# Check that leading dimensions of this tensor matches the first,
# either statically or dynamically. (If the first dimensions of both
# tensors are statically known, the we have to check the static
# shapes at graph construction time or else we will never get to the
# dynamic assertion.)
if (first_tensor.shape[:1].is_fully_defined() and
tensor.shape[:1].is_fully_defined()):
if first_tensor.shape[0] != tensor.shape[0]:
raise ValueError(
'Batch size of dataset tensors does not match. %s '
'has shape %s, but %s has shape %s' % (
first_tensor.name, first_tensor.shape,
tensor.name, tensor.shape))
else:
curr_shape = tf.shape(tensor)
control_deps = [tf.Assert(
tf.equal(curr_shape[0], first_tensor_batch_size),
['Batch size of dataset tensors %s and %s do not match. '
'Shapes are' % (tensor.name, first_tensor.name), curr_shape,
first_tensor_shape])]
with tf.control_dependencies(control_deps):
# Pad to batch_size along leading dimension.
flat_args[i] = tf.pad(
tensor, [[0, difference]] + [[0, 0]] * (tensor.shape.ndims - 1))
flat_args[i].set_shape([batch_size] + tensor.shape.as_list()[1:])
return tf.nest.pack_sequence_as(args, flat_args)
return dataset.map(_pad_to_batch)
def build_input_fn(builder, is_training):
"""Build input function.
Args:
builder: TFDS builder for specified dataset.
is_training: Whether to build in training mode.
Returns:
A function that accepts a dict of params and returns a tuple of images and
features, to be used as the input_fn in TPUEstimator.
"""
def _input_fn(params):
"""Inner input function."""
preprocess_fn_pretrain = get_preprocess_fn(is_training, is_pretrain=True)
preprocess_fn_finetune = get_preprocess_fn(is_training, is_pretrain=False)
num_classes = builder.info.features['label'].num_classes
def map_fn(image, label):
"""Produces multiple transformations of the same batch."""
if FLAGS.train_mode == 'pretrain':
xs = []
for _ in range(2): # Two transformations
xs.append(preprocess_fn_pretrain(image))
image = tf.concat(xs, -1)
label = tf.zeros([num_classes])
else:
image = preprocess_fn_finetune(image)
label = tf.one_hot(label, num_classes)
return image, label, 1.0
dataset = builder.as_dataset(
split=FLAGS.train_split if is_training else FLAGS.eval_split,
shuffle_files=is_training, as_supervised=True)
if FLAGS.cache_dataset:
dataset = dataset.cache()
if is_training:
buffer_multiplier = 50 if FLAGS.image_size <= 32 else 10
dataset = dataset.shuffle(params['batch_size'] * buffer_multiplier)
dataset = dataset.repeat(-1)
dataset = dataset.map(map_fn,
num_parallel_calls=tf.data.experimental.AUTOTUNE)
dataset = dataset.batch(params['batch_size'], drop_remainder=is_training)
dataset = pad_to_batch(dataset, params['batch_size'])
images, labels, mask = tf.data.make_one_shot_iterator(dataset).get_next()
return images, {'labels': labels, 'mask': mask}
return _input_fn
def get_preprocess_fn(is_training, is_pretrain):
"""Get function that accepts an image and returns a preprocessed image."""
# Disable test cropping for small images (e.g. CIFAR)
if FLAGS.image_size <= 32:
test_crop = False
else:
test_crop = True
return functools.partial(
data_util.preprocess_image,
height=FLAGS.image_size,
width=FLAGS.image_size,
is_training=is_training,
color_distort=is_pretrain,
test_crop=test_crop)