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label_image_list.py
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label_image_list.py
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# Copyright 2017 The TensorFlow Authors. 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.
# ==============================================================================
#
# Changes made by Koen Hufkens (2018) in order to allow for list of images to be
# used as data source rather than image directories.
#
# These changes require additional libraries (pandas) to be installed.
# ==============================================================================
from __future__ import absolute_import
from __future__ import division
from __future__ import print_function
import argparse
import numpy as np
import tensorflow as tf
import pandas as pd
import os.path
def load_graph(model_file):
graph = tf.Graph()
graph_def = tf.GraphDef()
with open(model_file, "rb") as f:
graph_def.ParseFromString(f.read())
with graph.as_default():
tf.import_graph_def(graph_def)
return graph
def read_tensor_from_image_file(file_name,
input_height=299,
input_width=299,
input_mean=0,
input_std=255):
input_name = "file_reader"
output_name = "normalized"
file_reader = tf.read_file(file_name, input_name)
if file_name.endswith(".png"):
image_reader = tf.image.decode_png(
file_reader, channels=3, name="png_reader")
elif file_name.endswith(".gif"):
image_reader = tf.squeeze(
tf.image.decode_gif(file_reader, name="gif_reader"))
elif file_name.endswith(".bmp"):
image_reader = tf.image.decode_bmp(file_reader, name="bmp_reader")
else:
image_reader = tf.image.decode_jpeg(
file_reader, channels=3, name="jpeg_reader")
float_caster = tf.cast(image_reader, tf.float32)
dims_expander = tf.expand_dims(float_caster, 0)
resized = tf.image.resize_bilinear(dims_expander, [input_height, input_width])
normalized = tf.divide(tf.subtract(resized, [input_mean]), [input_std])
sess = tf.Session()
result = sess.run(normalized)
return result
def load_labels(label_file):
label = []
proto_as_ascii_lines = tf.gfile.GFile(label_file).readlines()
for l in proto_as_ascii_lines:
label.append(l.rstrip())
return label
if __name__ == "__main__":
file_name = "tensorflow/examples/label_image/data/grace_hopper.jpg"
model_file = \
"tensorflow/examples/label_image/data/inception_v3_2016_08_28_frozen.pb"
label_file = "tensorflow/examples/label_image/data/imagenet_slim_labels.txt"
input_height = 299
input_width = 299
input_mean = 0
input_std = 255
input_layer = "input"
output_layer = "InceptionV3/Predictions/Reshape_1"
output_dir = "."
parser = argparse.ArgumentParser()
parser.add_argument("--image_list", help="image list to be processed")
parser.add_argument("--graph", help="graph/model to be executed")
parser.add_argument("--labels", help="name of file containing labels")
parser.add_argument("--input_height", type=int, help="input height")
parser.add_argument("--input_width", type=int, help="input width")
parser.add_argument("--input_mean", type=int, help="input mean")
parser.add_argument("--input_std", type=int, help="input std")
parser.add_argument("--input_layer", help="name of input layer")
parser.add_argument("--output_layer", help="name of output layer")
parser.add_argument("--output_dir", help="name of output dir")
args = parser.parse_args()
if args.graph:
model_file = args.graph
if args.image_list:
image_list = args.image_list
if args.labels:
label_file = args.labels
if args.input_height:
input_height = args.input_height
if args.input_width:
input_width = args.input_width
if args.input_mean:
input_mean = args.input_mean
if args.input_std:
input_std = args.input_std
if args.input_layer:
input_layer = args.input_layer
if args.output_layer:
output_layer = args.output_layer
if args.output_dir:
output_dir = args.output_dir
# pre-load list of files to cycle through
df = pd.read_csv(image_list)
file_names = df.loc[:,'files']
# these things are static
graph = load_graph(model_file)
input_name = "import/" + input_layer
output_name = "import/" + output_layer
input_operation = graph.get_operation_by_name(input_name)
output_operation = graph.get_operation_by_name(output_name)
# initiate empty vectores
cnn_values = []
cnn_labels = []
for file_name in file_names:
# dynamic component
t = read_tensor_from_image_file(
file_name,
input_height=input_height,
input_width=input_width,
input_mean=input_mean,
input_std=input_std)
# return output
with tf.Session(graph=graph) as sess:
results = sess.run(output_operation.outputs[0], {
input_operation.outputs[0]: t
})
results = np.squeeze(results)
top_k = results.argsort()[-5:][::-1]
labels = load_labels(label_file)
#print(labels[top_k[0]], results[top_k[0]])
cnn_values.append(results[top_k[0]])
cnn_labels.append(labels[top_k[0]])
# concat data into pandas data frame
df = pd.DataFrame({'cnn_labels':cnn_labels,
'cnn_values':cnn_values,
'files':file_names})
# construct path
out_file = os.path.join(output_dir,"cnn_output_data.csv")
# write data to disk
df.to_csv(out_file, sep=',', index = False)