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Arguments |
target: Total number of steps expected, None if unknown. |
width: Progress bar width on screen. |
verbose: Verbosity mode, 0 (silent), 1 (verbose), 2 (semi-verbose) |
stateful_metrics: Iterable of string names of metrics that should not be averaged over time. Metrics in this list will be displayed as-is. All others will be averaged by the progbar before display. |
interval: Minimum visual progress update interval (in seconds). |
unit_name: Display name for step counts (usually "step" or "sample"). |
Sequence class |
tf.keras.utils.Sequence() |
Base object for fitting to a sequence of data, such as a dataset. |
Every Sequence must implement the __getitem__ and the __len__ methods. If you want to modify your dataset between epochs you may implement on_epoch_end. The method __getitem__ should return a complete batch. |
Notes: |
Sequence are a safer way to do multiprocessing. This structure guarantees that the network will only train once on each sample per epoch which is not the case with generators. |
Examples |
from skimage.io import imread |
from skimage.transform import resize |
import numpy as np |
import math |
# Here, `x_set` is list of path to the images |
# and `y_set` are the associated classes. |
class CIFAR10Sequence(Sequence): |
def __init__(self, x_set, y_set, batch_size): |
self.x, self.y = x_set, y_set |
self.batch_size = batch_size |
def __len__(self): |
return math.ceil(len(self.x) / self.batch_size) |
def __getitem__(self, idx): |
batch_x = self.x[idx * self.batch_size:(idx + 1) * |
self.batch_size] |
batch_y = self.y[idx * self.batch_size:(idx + 1) * |
self.batch_size] |
return np.array([ |
resize(imread(file_name), (200, 200)) |
for file_name in batch_x]), np.array(batch_y) |