def liver(data_dir, input_identifier, prediction_identifier, save_name=""): # Volumes for initialization # init = _liver_initialization_generator(data_dir, input_identifier, prediction_identifier) with dpp.Pipeline(storage_name=save_name, initialization_generator=init) as pipe: node = dpp.reader.file_paths( data_dir, input_identifier=input_identifier, ground_truth_identifier=prediction_identifier, random=False, iterations=1) node = seg.medical.load_all_slices(node, slice_type='axial', depth=5, single_label_slice=False) node = seg.reduce_to_single_label_slice(node) node = seg.clip_img_values(node, -100., 400.) # Prepare as network input node = seg.resize(node, [256, 256]) node = seg.transpose(node) node = seg.robust_img_scaling(node, ignore_values=[-100., 400.], initialize=True) return pipe
def generate_predictions(test_data_dir, save_name=""): """ Creates the pre-processing pipeline used when generating predictions. Parameters ---------- test_data_dir: string The directory which contains the test data. save_name: string The name used to save temporary values needed for pre-processing and specific to a given dataset. These can be re-loaded, which greatly speeds up initialization. Returns ------- test_pipeline: iterable An iterable over a number of datapoints where each datapoint is a tuple of a list of inputs and a parameter dictionary and the first input in the list is the network input, while the second input is the corresponding ground truth. """ global input_identifier global ground_truth_identifier # Volumes for initialization # init = _get_initialization_generator(test_data_dir) with dpp.Pipeline(storage_name=save_name, initialization_generator=init) as pipe: node = dpp.reader.file_paths( test_data_dir, input_identifier=input_identifier, ground_truth_identifier=ground_truth_identifier, random=False, iterations=1) node = seg.medical.load_all_slices(node, slice_type='axial', depth=5, single_label_slice=False) # Adjust labels and colours node = seg.crop_to_label(node, 1, max_reduction=10, square_crop=True, default_label=0) node = seg.mask_img_background(node, 0, pixel_value=0.) node = seg.reduce_to_single_label_slice(node) node = seg.clip_img_values(node, 0., 200.) # Prepare as network input node = seg.resize(node, [256, 256]) node = seg.transpose(node) # node = seg.pad(node, 92, mode='constant', image_only=True, default_pixel=0.) node = seg.robust_img_scaling(node, ignore_values=[0., 200.], initialize=True) return pipe
def training(train_data_dir, save_name=""): """ Creates the pre-processing pipeline used during training. Parameters ---------- train_data_dir: string The directory which contains the training and validation data. The data is split into a training and validation set using the global seed. save_name: string The name used to save temporary values needed for pre-processing and specific to a given dataset. These can be re-loaded, which greatly speeds up initialization. Returns ------- training_pipeline: iterable An iterable over a number of datapoints where each datapoint is a tuple of a list of inputs and a parameter dictionary and the first input in the list is the network input, while the second input is the corresponding ground truth. """ global input_identifier global ground_truth_identifier global split global seed # Volumes for initialization # init = _get_initialization_generator(train_data_dir) # Slices for training # with dpp.Pipeline(storage_name=save_name, initialization_generator=init) as pipe: # Load slices node = dpp.reader.file_paths(train_data_dir, input_identifier=input_identifier, ground_truth_identifier=ground_truth_identifier, random=True, iterations=0, split=split, split_selector=0, seed=seed) node = seg.medical.load_slice_filtered(node, label_of_interest=1, label_required=0, min_frequency=0.67, max_tries=20, slice_type='axial', depth=5, single_label_slice=False) # Random rotation then crop to fit node = seg.random_rotation(node, probability=1.0, upper_bound=180) # Random transformations node = seg.random_resize(node, [256, 256], probability=1.0, lower_bound=0.8, upper_bound=1.1, default_pixel=-100., default_label=0) node = seg.random_translation(node, probability=0.5, border_usage=0.5, default_border=0.25, label_of_interest=1, default_pixel=-100., default_label=0) # Adjust colours and labels node = seg.reduce_to_single_label_slice(node) node = seg.clip_img_values(node, -100., 400.) node = seg.fuse_labels_greater_than(node, 0.5) # Prepare as input node = seg.transpose(node) node = seg.robust_img_scaling(node, ignore_values=[-100., 400.], initialize=True) return pipe
def _test_val_tail(node): node = seg.reduce_to_single_label_slice(node) node = seg.clip_img_values(node, -100., 400.) node = seg.fuse_labels_greater_than(node, 0.5) # Prepare as network input node = seg.resize(node, [256, 256]) node = seg.transpose(node) node = seg.robust_img_scaling(node, ignore_values=[-100., 400.], initialize=True) return node
def _test_val_tail(node): # Adjust labels and colours # node = seg.crop_to_label(node, 1, max_reduction=10, square_crop=True, default_label=0) # node = seg.resize(node, [312, 312]) # node = seg.decreasing_mask_img_background(node, 0, pixel_value=0.) node = seg.mask_img_background(node, 0, pixel_value=0.) node = seg.reduce_to_single_label_slice(node) node = seg.clip_img_values(node, 0, 200.) # node = seg.decreasing_clip_img_values(node, 0, 200.) node = seg.fuse_labels_other_than(node, 2) # Prepare as network input # node = seg.resize(node, [256, 256]) node = seg.transpose(node) # node = seg.robust_img_scaling(node, ignore_values=[0., 200.], initialize=True) return node
def lesions(data_dir, input_identifier, prediction_identifier, save_name=""): # Volumes for initialization # init = _lesions_initialization_generator(data_dir, input_identifier, prediction_identifier) with dpp.Pipeline(storage_name=save_name, initialization_generator=init) as pipe: node = dpp.reader.file_paths( data_dir, input_identifier=input_identifier, ground_truth_identifier=prediction_identifier, random=False, iterations=1) node = seg.medical.load_all_slices(node, slice_type='axial', depth=5, single_label_slice=False) # Adjust labels and colours node = seg.crop_to_label(node, 1, max_reduction=10, square_crop=True, default_label=0) node = seg.mask_img_background(node, 0, pixel_value=0.) node = seg.reduce_to_single_label_slice(node) node = seg.clip_img_values(node, 0., 200.) # Prepare as network input node = seg.resize(node, [256, 256]) node = seg.transpose(node) node = seg.robust_img_scaling(node, ignore_values=[0., 200.], initialize=True) return pipe