NotMNIST.py

from __future__ import print_function

import matplotlib
import matplotlib.pyplot as plt
import numpy as np
import os
import sys
import tarfile
from IPython.display import display, Image
from scipy import ndimage
from sklearn.linear_model import LogisticRegression
from six.moves.urllib.request import urlretrieve
from six.moves import cPickle as pickle

# Config the matplotlib backend as plotting inline in IPython


url = 'https://commondatastorage.googleapis.com/books1000/'
last_percent_reported = None
data_root = "D:\\Coding"  # Change me to store data elsewhere

num_classes = 10
np.random.seed(133)

train_folders = ["D:\\Coding\\notMNIST_large\\A","D:\\Coding\\notMNIST_large\\B","D:\\Coding\\notMNIST_large\\C","D:\\Coding\\notMNIST_large\\D","D:\\Coding\\notMNIST_large\\E","D:\\Coding\\notMNIST_large\\F","D:\\Coding\\notMNIST_large\\G","D:\\Coding\\notMNIST_large\\H","D:\\Coding\\notMNIST_large\\I","D:\\Coding\\notMNIST_large\\J"]
test_folders = ["D:\\Coding\\notMNIST_small\\A","D:\\Coding\\notMNIST_small\\B","D:\\Coding\\notMNIST_small\\C","D:\\Coding\\notMNIST_small\\D","D:\\Coding\\notMNIST_small\\E","D:\\Coding\\notMNIST_small\\F","D:\\Coding\\notMNIST_small\\G","D:\\Coding\\notMNIST_small\\H","D:\\Coding\\notMNIST_small\\I","D:\\Coding\\notMNIST_small\\J"]

image_size = 28  # Pixel width and height.
pixel_depth = 255.0  # Number of levels per pixel.


def load_letter(folder, min_num_images):
    """Load the data for a single letter label."""
    image_files = os.listdir(folder)
    dataset = np.ndarray(shape=(len(image_files), image_size, image_size),
                         dtype=np.float32)
    print(folder)
    num_images = 0
    for image in image_files:
        image_file = os.path.join(folder, image)
        try:
            image_data = (ndimage.imread(image_file).astype(float) -
                          pixel_depth / 2) / pixel_depth
            if image_data.shape != (image_size, image_size):
                raise Exception('Unexpected image shape: %s' % str(image_data.shape))
            dataset[num_images, :, :] = image_data
            num_images = num_images + 1
        except IOError as e:
            print('Could not read:', image_file, ':', e, '- it\'s ok, skipping.')

    dataset = dataset[0:num_images, :, :]
    if num_images < min_num_images:
        raise Exception('Many fewer images than expected: %d < %d' %
                        (num_images, min_num_images))

    print('Full dataset tensor:', dataset.shape)
    print('Mean:', np.mean(dataset))
    print('Standard deviation:', np.std(dataset))
    return dataset


def maybe_pickle(data_folders, min_num_images_per_class, force=False):
    dataset_names = []
    for folder in data_folders:
        set_filename = folder + '.pickle'
        dataset_names.append(set_filename)
        if os.path.exists(set_filename) and not force:
            # You may override by setting force=True.
            print('%s already present - Skipping pickling.' % set_filename)
        else:
            print('Pickling %s.' % set_filename)
            dataset = load_letter(folder, min_num_images_per_class)
            try:
                with open(set_filename, 'wb') as f:
                    pickle.dump(dataset, f, pickle.HIGHEST_PROTOCOL)
            except Exception as e:
                print('Unable to save data to', set_filename, ':', e)

    return dataset_names


train_datasets = maybe_pickle(train_folders, 45000)
test_datasets = maybe_pickle(test_folders, 1800)


def make_arrays(nb_rows, img_size):
    if nb_rows:
        dataset = np.ndarray((nb_rows, img_size, img_size), dtype=np.float32)
        labels = np.ndarray(nb_rows, dtype=np.int32)
    else:
        dataset, labels = None, None
    return dataset, labels


def merge_datasets(pickle_files, train_size, valid_size=0):
    num_classes = len(pickle_files)
    valid_dataset, valid_labels = make_arrays(valid_size, image_size)
    train_dataset, train_labels = make_arrays(train_size, image_size)
    vsize_per_class = valid_size // num_classes
    tsize_per_class = train_size // num_classes

    start_v, start_t = 0, 0
    end_v, end_t = vsize_per_class, tsize_per_class
    end_l = vsize_per_class + tsize_per_class
    for label, pickle_file in enumerate(pickle_files):
        try:
            with open(pickle_file, 'rb') as f:
                letter_set = pickle.load(f)
                # let's shuffle the letters to have random validation and training set
                np.random.shuffle(letter_set)
                if valid_dataset is not None:
                    valid_letter = letter_set[:vsize_per_class, :, :]
                    valid_dataset[start_v:end_v, :, :] = valid_letter
                    valid_labels[start_v:end_v] = label
                    start_v += vsize_per_class
                    end_v += vsize_per_class

                train_letter = letter_set[vsize_per_class:end_l, :, :]
                train_dataset[start_t:end_t, :, :] = train_letter
                train_labels[start_t:end_t] = label
                start_t += tsize_per_class
                end_t += tsize_per_class
        except Exception as e:
            print('Unable to process data from', pickle_file, ':', e)
            raise

    return valid_dataset, valid_labels, train_dataset, train_labels


train_size = 200000
valid_size = 10000
test_size = 10000

valid_dataset, valid_labels, train_dataset, train_labels = merge_datasets(
    train_datasets, train_size, valid_size)
_, _, test_dataset, test_labels = merge_datasets(test_datasets, test_size)

print('Training:', train_dataset.shape, train_labels.shape)
print('Validation:', valid_dataset.shape, valid_labels.shape)
print('Testing:', test_dataset.shape, test_labels.shape)



def randomize(dataset, labels):
  permutation = np.random.permutation(labels.shape[0])
  shuffled_dataset = dataset[permutation,:,:]
  shuffled_labels = labels[permutation]
  return shuffled_dataset, shuffled_labels
train_dataset, train_labels = randomize(train_dataset, train_labels)
test_dataset, test_labels = randomize(test_dataset, test_labels)
valid_dataset, valid_labels = randomize(valid_dataset, valid_labels)


pickle_file = os.path.join(data_root, 'notMNIST.pickle')

try:
  f = open(pickle_file, 'wb')
  save = {
    'train_dataset': train_dataset,
    'train_labels': train_labels,
    'valid_dataset': valid_dataset,
    'valid_labels': valid_labels,
    'test_dataset': test_dataset,
    'test_labels': test_labels,
    }
  pickle.dump(save, f, pickle.HIGHEST_PROTOCOL)
  f.close()
except Exception as e:
  print('Unable to save data to', pickle_file, ':', e)
  raise


statinfo = os.stat(pickle_file)
print('Compressed pickle size:', statinfo.st_size)

display(Image(filename="D:\\Coding\\notMNIST_small\\A\\Q0NXaWxkV29yZHMtQm9sZEl0YWxpYy50dGY=.png"))

image_data = (ndimage.imread(image_file).astype(float) - pixel_depth / 2) / pixel_depth