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evaluation.py
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evaluation.py
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# coding=utf-8
# Copyright 2020 The Google Research 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 language governing permissions and
# limitations under the License.
"""Utility functions for computing FID/Inception scores."""
import jax
import numpy as np
import six
import tensorflow as tf
import tensorflow_gan as tfgan
import tensorflow_hub as tfhub
import os
INCEPTION_TFHUB = '/scratch/jolicoea/checkpoints/tfgan_eval_inception_1'
INCEPTION_OUTPUT = 'logits'
INCEPTION_FINAL_POOL = 'pool_3'
_DEFAULT_DTYPES = {
INCEPTION_OUTPUT: tf.float32,
INCEPTION_FINAL_POOL: tf.float32
}
INCEPTION_DEFAULT_IMAGE_SIZE = 299
def get_inception_model(inceptionv3=False):
if inceptionv3:
return tfhub.load(
'/scratch/jolicoea/checkpoints/imagenet_inception_v3_feature_vector_4')
else:
return tfhub.load(INCEPTION_TFHUB)
def load_dataset_stats(config):
"""Load the pre-computed dataset statistics."""
if config.data.dataset == 'CIFAR10':
filename = 'assets/stats/cifar10_stats.npz'
elif config.data.dataset == 'CELEBA':
filename = 'assets/stats/celeba_stats.npz'
elif config.data.dataset == 'LSUN':
filename = f'assets/stats/lsun_{config.data.category}_{config.data.image_size}_stats.npz'
else :
filename = f'assets/stats/{config.data.dataset.lower()}_{config.data.image_size}_stats.npz'
with tf.io.gfile.GFile(filename, 'rb') as fin:
stats = np.load(fin)
return stats
def classifier_fn_from_tfhub(output_fields, inception_model,
return_tensor=False):
"""Returns a function that can be as a classifier function.
Copied from tfgan but avoid loading the model each time calling _classifier_fn
Args:
output_fields: A string, list, or `None`. If present, assume the module
outputs a dictionary, and select this field.
inception_model: A model loaded from TFHub.
return_tensor: If `True`, return a single tensor instead of a dictionary.
Returns:
A one-argument function that takes an image Tensor and returns outputs.
"""
if isinstance(output_fields, six.string_types):
output_fields = [output_fields]
def _classifier_fn(images):
output = inception_model(images)
if output_fields is not None:
output = {x: output[x] for x in output_fields}
if return_tensor:
assert len(output) == 1
output = list(output.values())[0]
return tf.nest.map_structure(tf.compat.v1.layers.flatten, output)
return _classifier_fn
@tf.function
def run_inception_jit(inputs,
inception_model,
num_batches=1,
inceptionv3=False):
"""Running the inception network. Assuming input is within [0, 255]."""
if not inceptionv3:
inputs = (tf.cast(inputs, tf.float32) - 127.5) / 127.5
else:
inputs = tf.cast(inputs, tf.float32) / 255.
return tfgan.eval.run_classifier_fn(
inputs,
num_batches=num_batches,
classifier_fn=classifier_fn_from_tfhub(None, inception_model),
dtypes=_DEFAULT_DTYPES)
@tf.function
def run_inception_distributed(input_tensor,
inception_model,
num_batches=1,
inceptionv3=False):
"""Distribute the inception network computation to all available TPUs.
Args:
input_tensor: The input images. Assumed to be within [0, 255].
inception_model: The inception network model obtained from `tfhub`.
num_batches: The number of batches used for dividing the input.
inceptionv3: If `True`, use InceptionV3, otherwise use InceptionV1.
Returns:
A dictionary with key `pool_3` and `logits`, representing the pool_3 and
logits of the inception network respectively.
"""
num_tpus = jax.local_device_count()
input_tensors = tf.split(input_tensor, num_tpus, axis=0)
pool3 = []
logits = [] if not inceptionv3 else None
device_format = '/TPU:{}' if 'TPU' in str(jax.devices()[0]) else '/GPU:{}'
os.environ["CUDA_VISIBLE_DEVICES"]="0"
for i, tensor in enumerate(input_tensors):
with tf.device(device_format.format(i)):
tensor_on_device = tf.identity(tensor)
res = run_inception_jit(
tensor_on_device, inception_model, num_batches=num_batches,
inceptionv3=inceptionv3)
if not inceptionv3:
pool3.append(res['pool_3'])
logits.append(res['logits']) # pytype: disable=attribute-error
else:
pool3.append(res)
with tf.device('/CPU'):
return {
'pool_3': tf.concat(pool3, axis=0),
'logits': tf.concat(logits, axis=0) if not inceptionv3 else None
}