After installing tensorflow,I run my code ,I get the simgle import error :

import utils.io.image
ModuleNotFoundError: no  module named 'utils.io

and before this error I get the error:

ImportError: No module named 'utils'

After installing the python-utils,the 'utils' work but 'utils.io' doesn't work

My environment: linux ubuntu 16.04 + Tensorflow 1.3.0 + Python 3.6.2

Any help is highly appreciated.

here is my code:


import os
from collections import OrderedDict

import SimpleITK as sitk
import numpy as np
import tensorflow as tf
import utils.io.image
import utils.io.landmark
import utils.io.text
import utils.np_image
import utils.sitk_image
import utils.sitk_np
from datasets.pyro_dataset import PyroClientDataset
from tensorflow_train.data_generator import DataGenerator
from tensorflow_train.train_loop import MainLoopBase
from tensorflow_train.utils.data_format import get_batch_channel_image_size
from tensorflow_train.utils.summary_handler import create_summary_placeholder
from tensorflow_train.utils.tensorflow_util import get_reg_loss, create_placeholders_tuple, print_progress_bar
from utils.landmark.common import Landmark, get_mean_landmark
from utils.landmark.landmark_statistics import LandmarkStatistics

from dataset import Dataset
from network import network_u, UnetClassicAvgLinear3d

class MainLoop(MainLoopBase):
    def __init__(self, cv, network, unet, network_parameters, learning_rate, output_folder_name=''):
        :param cv: The cv fold. 0, 1, 2 for CV; 'train_all' for training on whole dataset.
        :param network: The used network. Usually network_u.
        :param unet: The specific instance of the U-Net. Usually UnetClassicAvgLinear3d.
        :param network_parameters: The network parameters passed to unet.
        :param learning_rate: The initial learning rate.
        :param output_folder_name: The output folder name that is used for distinguishing experiments.
        self.batch_size = 1
        self.learning_rates = [learning_rate, learning_rate * 0.5, learning_rate * 0.1]
        self.learning_rate_boundaries = [10000, 15000]
        self.max_iter = 20000
        self.test_iter = 5000
        self.disp_iter = 100
        self.snapshot_iter = 5000
        self.test_initialization = False
        self.current_iter = 0
        self.reg_constant = 0.0005
        self.use_background = True
        self.num_labels = 1
        self.heatmap_sigma = 2.0
        self.data_format = 'channels_first'
        self.network = network
        self.unet = unet
        self.network_parameters = network_parameters
        self.padding = 'same'

        self.use_pyro_dataset = False
        self.save_output_images = True
        self.save_output_images_as_uint = True  # set to False, if you want to see the direct network output
        self.save_debug_images = False
        self.has_validation_groundtruth = cv in [0, 1, 2]
        self.local_base_folder = '../verse2019_dataset'
        self.image_size = [64, 64, 128]
        self.image_spacing = [8] * 3
        self.output_folder = os.path.join('./output/spine_localization/', network.__name__, unet.__name__, output_folder_name, str(cv), self.output_folder_timestamp())
        dataset_parameters = {'base_folder': self.local_base_folder,
                              'image_size': self.image_size,
                              'image_spacing': self.image_spacing,
                              'cv': cv,
                              'input_gaussian_sigma': 3.0,
                              'generate_spine_heatmap': True,
                              'save_debug_images': self.save_debug_images}

        dataset = Dataset(**dataset_parameters)
        if self.use_pyro_dataset:
            server_name = '@localhost:51232'
            uri = 'PYRO:verse_dataset' + server_name
            print('using pyro uri', uri)
            self.dataset_train = PyroClientDataset(uri, **dataset_parameters)
            self.dataset_train = dataset.dataset_train()
        self.dataset_val = dataset.dataset_val()

        self.point_statistics_names = ['pe_mean', 'pe_stdev', 'pe_median']
        self.additional_summaries_placeholders_val = dict([(name, create_summary_placeholder(name)) for name in self.point_statistics_names])

    def loss_function(self, pred, target):
        L2 loss function calculated with prediction and target.
        :param pred: The predicted image.
        :param target: The target image.
        :return: L2 loss of (pred - target) / batch_size
        batch_size, _, _ = get_batch_channel_image_size(pred, self.data_format)
        return tf.nn.l2_loss(pred - target) / batch_size

    def init_networks(self):
        Initialize networks and placeholders.
        network_image_size = list(reversed(self.image_size))

        if self.data_format == 'channels_first':
            data_generator_entries = OrderedDict([('image', [1] + network_image_size),
                                                  ('spine_heatmap', [1] + network_image_size)])
            data_generator_entries = OrderedDict([('image', network_image_size + [1]),
                                                  ('spine_heatmap', [1] + network_image_size)])

        data_generator_types = {'image': tf.float32,
                                'spine_heatmap': tf.float32}

        # create model with shared weights between train and val
        training_net = tf.make_template('net', self.network)

        # build train graph
        self.train_queue = DataGenerator(coord=self.coord, dataset=self.dataset_train, data_names_and_shapes=data_generator_entries, data_types=data_generator_types, batch_size=self.batch_size)
        data, target_spine_heatmap = self.train_queue.dequeue()

        prediction = training_net(data, num_labels=self.num_labels, is_training=True, actual_network=self.unet, padding=self.padding, **self.network_parameters)
        self.loss_net = self.loss_function(target=target_spine_heatmap, pred=prediction)
        self.loss_reg = get_reg_loss(self.reg_constant)
        self.loss = self.loss_net + tf.cast(self.loss_reg, tf.float32)

        # solver
        global_step = tf.Variable(self.current_iter, trainable=False)
        learning_rate = tf.train.piecewise_constant(global_step, self.learning_rate_boundaries, self.learning_rates)
        self.optimizer = tf.train.AdamOptimizer(learning_rate=learning_rate).minimize(self.loss, global_step=global_step)
        self.train_losses = OrderedDict([('loss', self.loss_net), ('loss_reg', self.loss_reg)])

        # build val graph
        self.data_val, self.target_spine_heatmap_val = create_placeholders_tuple(data_generator_entries, data_types=data_generator_types, shape_prefix=[1])
        self.prediction_val = training_net(self.data_val, num_labels=self.num_labels, is_training=False, actual_network=self.unet, padding=self.padding, **self.network_parameters)

        if self.has_validation_groundtruth:
            self.loss_val = self.loss_function(target=self.target_spine_heatmap_val, pred=self.prediction_val)
            self.val_losses = OrderedDict([('loss', self.loss_val), ('loss_reg', self.loss_reg)])

    def test_full_image(self, dataset_entry):
        Perform inference on a dataset_entry with the validation network.
        :param dataset_entry: A dataset entry from the dataset.
        :return: input image (np.array), network prediction (np.array), transformation (sitk.Transform)
        generators = dataset_entry['generators']
        transformations = dataset_entry['transformations']
        if self.has_validation_groundtruth:
            feed_dict = {self.data_val: np.expand_dims(generators['image'], axis=0),
                         self.target_spine_heatmap_val: np.expand_dims(generators['spine_heatmap'], axis=0)}
            # run loss and update loss accumulators
            run_tuple = self.sess.run((self.prediction_val, self.loss_val) + self.val_loss_aggregator.get_update_ops(),
            feed_dict = {self.data_val: np.expand_dims(generators['image'], axis=0)}
            # run loss and update loss accumulators
            run_tuple = self.sess.run((self.prediction_val,), feed_dict=feed_dict)

        prediction = np.squeeze(run_tuple[0], axis=0)
        transformation = transformations['image']
        image = generators['image']

        return image, prediction, transformation

    def test(self):
        The test function. Performs inference on the the validation images and calculates the loss.

        channel_axis = 0
        if self.data_format == 'channels_last':
            channel_axis = 3

        landmark_statistics = LandmarkStatistics()
        landmarks = {}
        num_entries = self.dataset_val.num_entries()
        for i in range(num_entries):
            dataset_entry = self.dataset_val.get_next()
            current_id = dataset_entry['id']['image_id']
            datasources = dataset_entry['datasources']
            if self.has_validation_groundtruth:
                groundtruth_landmarks = datasources['landmarks']
                groundtruth_landmark = [get_mean_landmark(groundtruth_landmarks)]
            input_image = datasources['image']

            image, prediction, transformation = self.test_full_image(dataset_entry)
            predictions_sitk = utils.sitk_image.transform_np_output_to_sitk_input(output_image=prediction,
            if self.save_output_images:
                if self.save_output_images_as_uint:
                    image_normalization = 'min_max'
                    heatmap_normalization = (0, 1)
                    output_image_type = np.uint8
                    image_normalization = None
                    heatmap_normalization = None
                    output_image_type = np.float32
                origin = transformation.TransformPoint(np.zeros(3, np.float64))
                utils.io.image.write_multichannel_np(image, self.output_file_for_current_iteration(current_id + '_input.mha'), normalization_mode=image_normalization, split_channel_axis=True, sitk_image_mode='default', data_format=self.data_format, image_type=output_image_type, spacing=self.image_spacing, origin=origin)
                utils.io.image.write_multichannel_np(prediction, self.output_file_for_current_iteration(current_id + '_prediction.mha'), normalization_mode=heatmap_normalization, split_channel_axis=True, sitk_image_mode='default', data_format=self.data_format, image_type=output_image_type, spacing=self.image_spacing, origin=origin)
                #utils.io.image.write(predictions_sitk[0], self.output_file_for_current_iteration(current_id + '_prediction_original.mha'))

            predictions_com = input_image.TransformContinuousIndexToPhysicalPoint(list(reversed(utils.np_image.center_of_mass(utils.sitk_np.sitk_to_np_no_copy(predictions_sitk[0])))))
            current_landmark = [Landmark(predictions_com)]
            landmarks[current_id] = current_landmark

            if self.has_validation_groundtruth:
                landmark_statistics.add_landmarks(current_id, current_landmark, groundtruth_landmark)

            print_progress_bar(i, num_entries, prefix='Testing ', suffix=' complete')

        utils.io.landmark.save_points_csv(landmarks, self.output_file_for_current_iteration('points.csv'))

        # finalize loss values
        if self.has_validation_groundtruth:
            summary_values = OrderedDict(zip(self.point_statistics_names, list(landmark_statistics.get_pe_statistics())))

            # finalize loss values
            self.val_loss_aggregator.finalize(self.current_iter, summary_values)
            overview_string = landmark_statistics.get_overview_string([2, 2.5, 3, 4, 10, 20], 10)
            utils.io.text.save_string_txt(overview_string, self.output_file_for_current_iteration('eval.txt'))

if __name__ == '__main__':
    network_parameters = OrderedDict([('num_filters_base', 64), ('double_features_per_level', False), ('num_levels', 5), ('activation', 'relu')])
    for cv in ['train_all', 0, 1, 2]:
        loop = MainLoop(cv, network_u, UnetClassicAvgLinear3d, network_parameters, 0.0001, output_folder_name='baseline')
  • 1
    Can you give a bit of context where utils comes from? Is it an import from a local file or some package? If so which package did you install for it?
    – cel
    Jul 22, 2020 at 8:56
  • Can you please share the source of your code. Jul 22, 2020 at 9:27
  • I have uploaded my code,the ‘utils’package have installed,I cann't true if it import a local file,I will check it.
    – jack-liu
    Jul 22, 2020 at 9:29

1 Answer 1


I think you need to use another module from the same developer's GitHub of your code.

Check this link (https://github.com/christianpayer/MedicalDataAugmentationTool)

You can find the directory named 'utils/io'

I'm also working on this code :)

  • 1
    Your answer could be improved with additional supporting information. Please edit to add further details, such as citations or documentation, so that others can confirm that your answer is correct. You can find more information on how to write good answers in the help center.
    – Community Bot
    Mar 2 at 5:51

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