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svnh_semi_supervised_model_loaded_test.py
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svnh_semi_supervised_model_loaded_test.py
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import tensorflow as tf
import numpy as np
import utils
'''
Loads the saved GAN model and calls prediction on test images
'''
def load_test_images():
'''
Loads 64 random images from SVNH test data sets
:return: Tuple of (test images, image labels)
'''
utils.download_train_and_test_data()
_, testset = utils.load_data_sets()
idx = np.random.randint(0, testset['X'].shape[3], size=64)
test_images = testset['X'][:, :, :, idx]
test_labels = testset['y'][idx]
test_images = np.rollaxis(test_images, 3)
test_images = utils.scale(test_images)
return test_images, test_labels
def load_and_predict_with_checkpoints():
'''
Loads saved model checkpoints and make prediction on test images
'''
# load test images and labels
test_images, test_labels = load_test_images()
# create an empty graph for the session
loaded_graph = tf.Graph()
with tf.Session(graph=loaded_graph) as sess:
# restore save model
saver = tf.train.import_meta_graph('./checkpoints/generator.ckpt.meta')
saver.restore(sess, tf.train.latest_checkpoint('./checkpoints'))
# get necessary tensors by name
pred_class_tensor = loaded_graph.get_tensor_by_name("pred_class:0")
inputs_real_tensor = loaded_graph.get_tensor_by_name("input_real:0")
y_tensor = loaded_graph.get_tensor_by_name("y:0")
drop_rate_tensor = loaded_graph.get_tensor_by_name("drop_rate:0")
correct_pred_sum_tensor = loaded_graph.get_tensor_by_name("correct_pred_sum:0")
# make prediction
correct, pred_class = sess.run(
[correct_pred_sum_tensor, pred_class_tensor],
feed_dict={
inputs_real_tensor: test_images,
y_tensor: test_labels,
drop_rate_tensor: 0.})
# print results
print("No. correct predictions: {}".format(correct))
print("Predicted classes: {}".format(pred_class))
def load_and_predict_with_saved_model():
'''
Loads saved as protobuf model and make prediction on a single image
'''
with tf.Session(graph=tf.Graph()) as sess:
# restore save model
export_dir = './gan-export/1'
model = tf.saved_model.loader.load(sess, [tf.saved_model.tag_constants.SERVING], export_dir)
# print(model)
loaded_graph = tf.get_default_graph()
# get necessary tensors by name
input_tensor_name = model.signature_def['predict_images'].inputs['images'].name
input_tensor = loaded_graph.get_tensor_by_name(input_tensor_name)
output_tensor_name = model.signature_def['predict_images'].outputs['scores'].name
output_tensor = loaded_graph.get_tensor_by_name(output_tensor_name)
# make prediction
image_file_name = './svnh_test_images/image_3.jpg'
with open(image_file_name, 'rb') as f:
image = f.read()
scores = sess.run(output_tensor, {input_tensor: [image]})
# print results
print("Image file name: {}".format(image_file_name))
print("Scores: {}".format(scores))
def main(_):
load_and_predict_with_checkpoints()
load_and_predict_with_saved_model()
if __name__ == '__main__':
tf.app.run()