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evaluate_sample.py
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evaluate_sample.py
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# Copyright 2017 Google Inc.
#
# 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
#
# https://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.
# ============================================================================
"""Loads a sample video and classifies using a trained Kinetics checkpoint."""
from __future__ import absolute_import
from __future__ import division
from __future__ import print_function
import numpy as np
import tensorflow as tf
import i3d
_IMAGE_SIZE = 224
_SAMPLE_VIDEO_FRAMES = 79
_SAMPLE_PATHS = {
'rgb': 'data/v_CricketShot_g04_c01_rgb.npy',
'flow': 'data/v_CricketShot_g04_c01_flow.npy',
}
_CHECKPOINT_PATHS = {
'rgb': 'data/checkpoints/rgb_scratch/model.ckpt',
'rgb600': 'data/checkpoints/rgb_scratch_kin600/model.ckpt',
'flow': 'data/checkpoints/flow_scratch/model.ckpt',
'rgb_imagenet': 'data/checkpoints/rgb_imagenet/model.ckpt',
'flow_imagenet': 'data/checkpoints/flow_imagenet/model.ckpt',
}
_LABEL_MAP_PATH = 'data/label_map.txt'
_LABEL_MAP_PATH_600 = 'data/label_map_600.txt'
FLAGS = tf.flags.FLAGS
tf.flags.DEFINE_string('eval_type', 'joint', 'rgb, rgb600, flow, or joint')
tf.flags.DEFINE_boolean('imagenet_pretrained', True, '')
def main(unused_argv):
tf.compat.v1.logging.set_verbosity(tf.compat.v1.logging.INFO)
eval_type = FLAGS.eval_type
imagenet_pretrained = FLAGS.imagenet_pretrained
NUM_CLASSES = 400
if eval_type == 'rgb600':
NUM_CLASSES = 600
if eval_type not in ['rgb', 'rgb600', 'flow', 'joint']:
raise ValueError('Bad `eval_type`, must be one of rgb, rgb600, flow, joint')
if eval_type == 'rgb600':
kinetics_classes = [x.strip() for x in open(_LABEL_MAP_PATH_600)]
else:
kinetics_classes = [x.strip() for x in open(_LABEL_MAP_PATH)]
if eval_type in ['rgb', 'rgb600', 'joint']:
# RGB input has 3 channels.
rgb_input = tf.compat.v1.placeholder(
tf.float32,
shape=(1, _SAMPLE_VIDEO_FRAMES, _IMAGE_SIZE, _IMAGE_SIZE, 3))
with tf.compat.v1.variable_scope('RGB'):
rgb_model = i3d.InceptionI3d(
NUM_CLASSES, spatial_squeeze=True, final_endpoint='Logits')
rgb_logits, _ = rgb_model(
rgb_input, is_training=False, dropout_keep_prob=1.0)
rgb_variable_map = {}
for variable in tf.compat.v1.global_variables():
if variable.name.split('/')[0] == 'RGB':
if eval_type == 'rgb600':
rgb_variable_map[variable.name.replace(':0', '')[len('RGB/inception_i3d/'):]] = variable
else:
rgb_variable_map[variable.name.replace(':0', '')] = variable
rgb_saver = tf.compat.v1.train.Saver(var_list=rgb_variable_map, reshape=True)
if eval_type in ['flow', 'joint']:
# Flow input has only 2 channels.
flow_input = tf.compat.v1.placeholder(
tf.float32,
shape=(1, _SAMPLE_VIDEO_FRAMES, _IMAGE_SIZE, _IMAGE_SIZE, 2))
with tf.compat.v1.variable_scope('Flow'):
flow_model = i3d.InceptionI3d(
NUM_CLASSES, spatial_squeeze=True, final_endpoint='Logits')
flow_logits, _ = flow_model(
flow_input, is_training=False, dropout_keep_prob=1.0)
flow_variable_map = {}
for variable in tf.compat.v1.global_variables():
if variable.name.split('/')[0] == 'Flow':
flow_variable_map[variable.name.replace(':0', '')] = variable
flow_saver = tf.compat.v1.train.Saver(var_list=flow_variable_map, reshape=True)
if eval_type == 'rgb' or eval_type == 'rgb600':
model_logits = rgb_logits
elif eval_type == 'flow':
model_logits = flow_logits
else:
model_logits = rgb_logits + flow_logits
model_predictions = tf.nn.softmax(model_logits)
with tf.compat.v1.Session() as sess:
feed_dict = {}
if eval_type in ['rgb', 'rgb600', 'joint']:
if imagenet_pretrained:
rgb_saver.restore(sess, _CHECKPOINT_PATHS['rgb_imagenet'])
else:
rgb_saver.restore(sess, _CHECKPOINT_PATHS[eval_type])
tf.compat.v1.logging.info('RGB checkpoint restored')
rgb_sample = np.load(_SAMPLE_PATHS['rgb'])
tf.compat.v1.logging.info('RGB data loaded, shape=%s', str(rgb_sample.shape))
feed_dict[rgb_input] = rgb_sample
if eval_type in ['flow', 'joint']:
if imagenet_pretrained:
flow_saver.restore(sess, _CHECKPOINT_PATHS['flow_imagenet'])
else:
flow_saver.restore(sess, _CHECKPOINT_PATHS['flow'])
tf.compat.v1.logging.info('Flow checkpoint restored')
flow_sample = np.load(_SAMPLE_PATHS['flow'])
tf.compat.v1.logging.info('Flow data loaded, shape=%s', str(flow_sample.shape))
feed_dict[flow_input] = flow_sample
out_logits, out_predictions = sess.run(
[model_logits, model_predictions],
feed_dict=feed_dict)
out_logits = out_logits[0]
out_predictions = out_predictions[0]
sorted_indices = np.argsort(out_predictions)[::-1]
print('Norm of logits: %f' % np.linalg.norm(out_logits))
print('\nTop classes and probabilities')
for index in sorted_indices[:20]:
print(out_predictions[index], out_logits[index], kinetics_classes[index])
if __name__ == '__main__':
tf.compat.v1.app.run(main)