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166 lines
5.5 KiB
Python
166 lines
5.5 KiB
Python
import pickle
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import numpy as np
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import matplotlib.pyplot as plt
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from sklearn.preprocessing import LabelBinarizer
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def _load_label_names():
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"""
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Load the label names from file
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"""
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return ['airplane', 'automobile', 'bird', 'cat', 'deer', 'dog', 'frog', 'horse', 'ship', 'truck']
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def load_cfar10_batch(cifar10_dataset_folder_path, batch_id):
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"""
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Load a batch of the dataset
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"""
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with open(cifar10_dataset_folder_path + '/data_batch_' + str(batch_id), mode='rb') as file:
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batch = pickle.load(file, encoding='latin1')
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features = batch['data'].reshape((len(batch['data']), 3, 32, 32)).transpose(0, 2, 3, 1)
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labels = batch['labels']
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return features, labels
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def display_stats(cifar10_dataset_folder_path, batch_id, sample_id):
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"""
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Display Stats of the the dataset
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"""
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batch_ids = list(range(1, 6))
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if batch_id not in batch_ids:
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print('Batch Id out of Range. Possible Batch Ids: {}'.format(batch_ids))
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return None
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features, labels = load_cfar10_batch(cifar10_dataset_folder_path, batch_id)
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if not (0 <= sample_id < len(features)):
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print('{} samples in batch {}. {} is out of range.'.format(len(features), batch_id, sample_id))
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return None
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print('\nStats of batch {}:'.format(batch_id))
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print('Samples: {}'.format(len(features)))
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print('Label Counts: {}'.format(dict(zip(*np.unique(labels, return_counts=True)))))
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print('First 20 Labels: {}'.format(labels[:20]))
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sample_image = features[sample_id]
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sample_label = labels[sample_id]
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label_names = _load_label_names()
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print('\nExample of Image {}:'.format(sample_id))
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print('Image - Min Value: {} Max Value: {}'.format(sample_image.min(), sample_image.max()))
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print('Image - Shape: {}'.format(sample_image.shape))
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print('Label - Label Id: {} Name: {}'.format(sample_label, label_names[sample_label]))
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plt.axis('off')
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plt.imshow(sample_image)
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def _preprocess_and_save(normalize, one_hot_encode, features, labels, filename):
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"""
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Preprocess data and save it to file
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"""
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features = normalize(features)
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labels = one_hot_encode(labels)
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pickle.dump((features, labels), open(filename, 'wb'))
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def preprocess_and_save_data(cifar10_dataset_folder_path, normalize, one_hot_encode):
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"""
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Preprocess Training and Validation Data
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"""
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n_batches = 5
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valid_features = []
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valid_labels = []
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for batch_i in range(1, n_batches + 1):
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features, labels = load_cfar10_batch(cifar10_dataset_folder_path, batch_i)
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validation_count = int(len(features) * 0.1)
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# Prprocess and save a batch of training data
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_preprocess_and_save(
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normalize,
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one_hot_encode,
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features[:-validation_count],
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labels[:-validation_count],
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'preprocess_batch_' + str(batch_i) + '.p')
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# Use a portion of training batch for validation
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valid_features.extend(features[-validation_count:])
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valid_labels.extend(labels[-validation_count:])
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# Preprocess and Save all validation data
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_preprocess_and_save(
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normalize,
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one_hot_encode,
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np.array(valid_features),
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np.array(valid_labels),
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'preprocess_validation.p')
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with open(cifar10_dataset_folder_path + '/test_batch', mode='rb') as file:
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batch = pickle.load(file, encoding='latin1')
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# load the training data
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test_features = batch['data'].reshape((len(batch['data']), 3, 32, 32)).transpose(0, 2, 3, 1)
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test_labels = batch['labels']
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# Preprocess and Save all training data
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_preprocess_and_save(
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normalize,
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one_hot_encode,
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np.array(test_features),
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np.array(test_labels),
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'preprocess_training.p')
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def batch_features_labels(features, labels, batch_size):
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"""
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Split features and labels into batches
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"""
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for start in range(0, len(features), batch_size):
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end = min(start + batch_size, len(features))
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yield features[start:end], labels[start:end]
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def load_preprocess_training_batch(batch_id, batch_size):
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"""
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Load the Preprocessed Training data and return them in batches of <batch_size> or less
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"""
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filename = 'preprocess_batch_' + str(batch_id) + '.p'
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features, labels = pickle.load(open(filename, mode='rb'))
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# Return the training data in batches of size <batch_size> or less
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return batch_features_labels(features, labels, batch_size)
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def display_image_predictions(features, labels, predictions):
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n_classes = 10
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label_names = _load_label_names()
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label_binarizer = LabelBinarizer()
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label_binarizer.fit(range(n_classes))
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label_ids = label_binarizer.inverse_transform(np.array(labels))
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fig, axies = plt.subplots(nrows=4, ncols=2)
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fig.tight_layout()
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fig.suptitle('Softmax Predictions', fontsize=20, y=1.1)
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n_predictions = 3
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margin = 0.05
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ind = np.arange(n_predictions)
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width = (1. - 2. * margin) / n_predictions
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for image_i, (feature, label_id, pred_indicies, pred_values) in enumerate(zip(features, label_ids, predictions.indices, predictions.values)):
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pred_names = [label_names[pred_i] for pred_i in pred_indicies]
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correct_name = label_names[label_id]
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axies[image_i][0].imshow(feature*255)
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axies[image_i][0].set_title(correct_name)
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axies[image_i][0].set_axis_off()
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axies[image_i][1].barh(ind + margin, pred_values[::-1], width)
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axies[image_i][1].set_yticks(ind + margin)
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axies[image_i][1].set_yticklabels(pred_names[::-1])
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axies[image_i][1].set_xticks([0, 0.5, 1.0])
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