def predict(image, sess, softmax_tensor):
    """
    Function used by classification workers to get prediction on image.

    This method was adapted based on run_inference_on_image() method from classify_image.py found in TensorFlow official tutorial.

    :param image: filename of the image to be classified
    :param sess: TensorFlow session
    :param softmax_tensor: tensor used for computing the predictions
    :return: (img_id, result) with img_id being Instagram Image ID and the result being dictionary with 5 most probable
    objects depicted in the image as keys and corresponding prediction confidences as values.
    """
    img_id = os.path.splitext(os.path.basename(image))[0]
    image_data = tf.gfile.FastGFile(image, 'rb').read()

    # 'DecodeJpeg/contents:0': A tensor containing a string providing JPEG
    #   encoding of the image.
    predictions = sess.run(softmax_tensor,
                           {'DecodeJpeg/contents:0': image_data})
    predictions = np.squeeze(predictions)

    # Creates node ID --> English string lookup.
    node_lookup = NodeLookup()

    top_k = predictions.argsort()[-FLAGS.num_top_predictions:][::-1]
    result = {}
    for node_id in top_k:
        human_string = node_lookup.id_to_string(node_id)
        score = predictions[node_id]
        result[human_string] = float(score)

    return img_id, result
Exemple #2
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    def run_inference_on_image(self, imageList, num_top_predictions=5):
        """Runs inference on an image.

        Args:
          image: Image file name.

        Returns:
          Nothing
        """

        for image in imageList:
            if not tf.gfile.Exists(image):
                tf.logging.fatal('File does not exist %s', image)
            image_data = tf.gfile.FastGFile(image, 'rb').read()

            # Creates graph from saved GraphDef.
            self.__create_graph()

            with tf.Session() as sess:
                # Some useful tensors:
                # 'softmax:0': A tensor containing the normalized prediction across
                #   1000 labels.
                # 'pool_3:0': A tensor containing the next-to-last layer containing 2048
                #   float description of the image.
                # 'DecodeJpeg/contents:0': A tensor containing a string providing JPEG
                #   encoding of the image.
                # Runs the softmax tensor by feeding the image_data as input to the graph.
                softmax_tensor = sess.graph.get_tensor_by_name('softmax:0')
                predictions = sess.run(softmax_tensor,
                                       {'DecodeJpeg/contents:0': image_data})
                predictions = np.squeeze(predictions)

                # Creates node ID --> English string lookup.
                node_lookup = NodeLookup()

                top_k = predictions.argsort()[-num_top_predictions:][::-1]
                for node_id in top_k:
                    human_string = node_lookup.id_to_string(node_id)
                    score = predictions[node_id]
                    print('%s (score = %.5f)' % (human_string, score))
Exemple #3
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        return

    def on_partitions_assigned(self, assigned):
        print(assigned)
        consumer.seek(TopicPartition("Panda_Media", 0), 0)
        return

maybe_download_and_extract()

consumer.subscribe(["Panda_Media"], listener=CRL())

# Creates graph from saved GraphDef.
create_graph()

# Creates node ID --> English string lookup.
node_lookup = NodeLookup()

# read messages
for msg in consumer:
    # deserialize from json
    twete = jsonpickle.decode(msg.value)

    # for each media object in tweet
    for media in twete.entities['media']:
        # base64 jpg string to bytes
        image_data = base64.b64decode(media['data'])

        # make sure image is jpeg
        if is_jpg(image_data) == False:
            print("Invalid panda {0}".format(msg.offset))
            continue
Exemple #4
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  if request.method == 'POST':
    file = request.files['file']
    old_file_name = file.filename
    if file and allowed_files(old_file_name):
      filename = rename_filename(old_file_name)
      file_path = os.path.join(UPLOAD_FOLDER, filename)
      file.save(file_path)
      type_name = 'N/A'
      print('file saved to %s' % file_path)
      start_time = time.time()
      out_html = inference(file_path)
      duration = time.time() - start_time
      print('duration:[%.0fms]' % (duration*1000))
      return result + out_html 
  return result

##http://127.0.0.1:5001/
if __name__ == "__main__":
  print('listening on port %d' % FLAGS.port)
  init_graph(model_name=FLAGS.model_name)
  label_file = FLAGS.label_file
  if not FLAGS.label_file:
    label_file, _ = os.path.splitext(FLAGS.model_name)
    label_file = label_file + '.label'
  node_lookup = NodeLookup(label_file)
  app.node_lookup = node_lookup
  sess = tf.Session()
  app.sess = sess
  app.run(host='0.0.0.0', port=FLAGS.port, debug=FLAGS.debug, threaded=True)