示例#1
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def run_scikit_digits(epochs=0, layers=0, neuron_count=0):
    """ Run Handwritten Digits dataset from Scikit-Learn.  Learning set is split
    into 70% for training, 15% for testing, and 15% for validation.

    Parameters
    ----------
    epochs : int
        Number of iterations of the the traininng loop for the whole dataset
    layers : int
        Number of layers (not counting the input layer, but does count output
        layer)
    neuron_count : list
        The number of neurons in each of the layers (in order), does not count
        the bias term

    Attributes
    ----------
    target_values : list
        The possible values for each training vector

    """

    # Imported from linear_neuron
    temp_digits = datasets.load_digits()
    digits = utils.resample(temp_digits.data, random_state=3)
    temp_answers = utils.resample(temp_digits.target, random_state=3)
    # images = utils.resample(temp_digits.images, random_state=0)
    num_of_training_vectors = 1250
    answers, answers_to_test, validation_answers = (
        temp_answers[:num_of_training_vectors],
        temp_answers[num_of_training_vectors : num_of_training_vectors + 260],
        temp_answers[num_of_training_vectors + 260 :],
    )
    training_set, testing_set, validation_set = (
        digits[:num_of_training_vectors],
        digits[num_of_training_vectors : num_of_training_vectors + 260],
        digits[num_of_training_vectors + 260 :],
    )

    ###########
    # network.visualization(training_set[10], answers[10])
    # network.visualization(training_set[11], answers[11])
    # network.visualization(training_set[12], answers[12])

    network = Network(layers, neuron_count, training_set[0])
    network.train(training_set, answers, epochs)
    f = open("my_net.pickle", "wb")
    # fr = open('my_net.pickle', 'rb')
    dill.dump(network, f)
    # network = pickle.load(fr)
    # fr.close()
    f.close()
    # guess_list = network.run_unseen(testing_set)
    return network.run_unseen(testing_set)
示例#2
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def run_mnist(run_num, epochs=0, layers=0, neuron_count=0):
    """ Run Mnist dataset and output a guess list on the Kaggle test_set

    Parameters
    ----------
    epochs : int
        Number of iterations of the the traininng loop for the whole dataset
    layers : int
        Number of layers (not counting the input layer, but does count output
        layer)
    neuron_count : list
        The number of neurons in each of the layers (in order), does not count
        the bias term

    Attributes
    ----------

    """
    ans_train = []
    train_set = []

    with open('train.csv', 'r') as f:
        reader = csv.reader(f)
        t = list(reader)
        train = [[int(x) for x in y] for y in t[1:]]

    ans_train = [x[0] for x in train]
    train_set = [x[1:] for x in train]
    ans_train.pop(0)
    train_set.pop(0)

    network = Network(layers, neuron_count, train_set[1])
    network.train(train_set, ans_train, epochs)

    guess_list = network.run_unseen(train_set[37800:])
    print('Test Set')
    test_report = network.report_results(guess_list, ans_train[37800:])

    file_name = 'finnegan/my_net_' + str(run_num) + '.pickle'
    g = open(file_name, 'wb')
    pickle.dump(network, g, protocol=4)
    g.close()

    file_name_2 = 'finnegan/my_net_report_' + str(run_num) + '.txt'
    h = open(file_name_2, 'w')
    details = 'Neuron Counts: ' + str(neuron_count) + '\n'
    details_2 = 'Test Report: ' + test_report + '\n'
    h.write(details)
    h.write(details_2)
    h.close()

    return None
示例#3
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def run_mnist(run_num, epochs=0, layers=0, neuron_count=0):
    """ Run Mnist dataset and output a guess list on the Kaggle test_set

    Parameters
    ----------
    epochs : int
        Number of iterations of the the traininng loop for the whole dataset
    layers : int
        Number of layers (not counting the input layer, but does count output
        layer)
    neuron_count : list
        The number of neurons in each of the layers (in order), does not count
        the bias term

    Attributes
    ----------

    """
    ans_train = []
    train_set = []

    with open('train.csv', 'r') as f:
        reader = csv.reader(f)
        t = list(reader)
        train = [[int(x) for x in y] for y in t[1:]]

    ans_train = [x[0] for x in train]
    train_set = [x[1:] for x in train]
    ans_train.pop(0)
    train_set.pop(0)

    network = Network(layers, neuron_count, train_set[1])
    network.train(train_set, ans_train, epochs)

    guess_list = network.run_unseen(train_set[37800:])
    print('Test Set')
    test_report = network.report_results(guess_list, ans_train[37800:])    

    file_name = 'finnegan/my_net_' + str(run_num) + '.pickle'
    g = open(file_name, 'wb')
    pickle.dump(network, g, protocol=4)
    g.close()

    file_name_2 = 'finnegan/my_net_report_' + str(run_num) + '.txt'
    h = open(file_name_2, 'w')
    details = 'Neuron Counts: ' + str(neuron_count) + '\n'
    details_2 = 'Test Report: ' + test_report + '\n'
    h.write(details)
    h.write(details_2)
    h.close()

    return None
示例#4
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def run_mnist(epochs, layers, neuron_count):
    """ Run Mnist dataset and output a guess list on the Kaggle test_set

    Parameters
    ----------
    epochs : int
        Number of iterations of the the traininng loop for the whole dataset
    layers : int
        Number of layers (not counting the input layer, but does count output
        layer)
    neuron_count : list
        The number of neurons in each of the layers (in order), does not count
        the bias term

    Attributes
    ----------
    target_values : list
        The possible values for each training vector

    """

    with open('train.csv', 'r') as f:
        reader = csv.reader(f)
        t = list(reader)
        train = [[int(x) for x in y] for y in t[1:]]

    with open('test.csv', 'r') as f:
        reader = csv.reader(f)
        raw_nums = list(reader)
        test_set = [[int(x) for x in y] for y in raw_nums[1:]]

    ans_train = [x[0] for x in train]
    train_set = [x[1:] for x in train]
    ans_train.pop(0)
    train_set.pop(0)

    train_set = utils.resample(train_set, random_state=2)
    ans_train = utils.resample(ans_train, random_state=2)

    network = Network(layers, neuron_count, train_set[0])
    network.train(train_set, ans_train, epochs)

    # For validation purposes
    # guess_list = network.run_unseen(train_set[4000:4500])
    # network.report_results(guess_list, ans_train[4000:4500])
    # guess_list = network.run_unseen(train_set[4500:5000])
    # network.report_results(guess_list, ans_train[4500:5000])

    guess_list = network.run_unseen(test_set)
    with open('digits.txt', 'w') as d:
        for elem in guess_list:
            d.write(str(elem) + '\n')
示例#5
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def run_mnist(epochs, layers, neuron_count):
    """ Run Mnist dataset and output a guess list on the Kaggle test_set

    Parameters
    ----------
    epochs : int
        Number of iterations of the the traininng loop for the whole dataset
    layers : int
        Number of layers (not counting the input layer, but does count output
        layer)
    neuron_count : list
        The number of neurons in each of the layers (in order), does not count
        the bias term

    Attributes
    ----------
    target_values : list
        The possible values for each training vector

    """

    with open("train.csv", "r") as f:
        reader = csv.reader(f)
        t = list(reader)
        train = [[int(x) for x in y] for y in t[1:]]

    with open("test.csv", "r") as f:
        reader = csv.reader(f)
        raw_nums = list(reader)
        test_set = [[int(x) for x in y] for y in raw_nums[1:]]

    ans_train = [x[0] for x in train]
    train_set = [x[1:] for x in train]
    ans_train.pop(0)
    train_set.pop(0)

    train_set = utils.resample(train_set, random_state=2)
    ans_train = utils.resample(ans_train, random_state=2)

    network = Network(layers, neuron_count, train_set[0])
    network.train(train_set, ans_train, epochs)

    # For validation purposes
    # guess_list = network.run_unseen(train_set[4000:4500])
    # network.report_results(guess_list, ans_train[4000:4500])
    # guess_list = network.run_unseen(train_set[4500:5000])
    # network.report_results(guess_list, ans_train[4500:5000])

    guess_list = network.run_unseen(test_set)
    with open("digits.txt", "w") as d:
        for elem in guess_list:
            d.write(str(elem) + "\n")
示例#6
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def run_scikit_digits(epochs=0, layers=0, neuron_count=0):
    """ Run Handwritten Digits dataset from Scikit-Learn.  Learning set is split
    into 70% for training, 15% for testing, and 15% for validation.

    Parameters
    ----------
    epochs : int
        Number of iterations of the the traininng loop for the whole dataset
    layers : int
        Number of layers (not counting the input layer, but does count output
        layer)
    neuron_count : list
        The number of neurons in each of the layers (in order), does not count
        the bias term

    Attributes
    ----------
    target_values : list
        The possible values for each training vector

    """

    # Imported from linear_neuron
    temp_digits = datasets.load_digits()
    digits = utils.resample(temp_digits.data, random_state=3)
    temp_answers = utils.resample(temp_digits.target, random_state=3)
    # images = utils.resample(temp_digits.images, random_state=0)
    num_of_training_vectors = 1250
    answers, answers_to_test, validation_answers = temp_answers[:num_of_training_vectors], temp_answers[
        num_of_training_vectors:num_of_training_vectors +
        260], temp_answers[num_of_training_vectors + 260:]
    training_set, testing_set, validation_set = digits[:num_of_training_vectors], digits[
        num_of_training_vectors:num_of_training_vectors +
        260], digits[num_of_training_vectors + 260:]

    ###########
    # network.visualization(training_set[10], answers[10])
    # network.visualization(training_set[11], answers[11])
    # network.visualization(training_set[12], answers[12])

    network = Network(layers, neuron_count, training_set[0])
    network.train(training_set, answers, epochs)
    f = open('my_net.pickle', 'wb')
    # fr = open('my_net.pickle', 'rb')
    dill.dump(network, f)
    # network = pickle.load(fr)
    # fr.close()
    f.close()
    # guess_list = network.run_unseen(testing_set)
    return network.run_unseen(testing_set)
示例#7
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def run_mnist(run_num, epochs=0, layers=0, neuron_count=0):
    """ Run affNIST dataset and output a guess list on test and validation
    sets.  Dumps a pickle of the trained network state and a results file
    for choosing the best parameters.

    Parameters
    ----------
    epochs : int
        Number of iterations of the the traininng loop for the whole dataset
    layers : int
        Number of layers (not counting the input layer, but does count output
        layer)
    neuron_count : list
        The number of neurons in each of the layers (in order), does not count
        the bias term

    Attributes
    ----------

    """

    dataset = loadmat('1.mat')
    ans_train = dataset['affNISTdata']['label_int']
    train_set = dataset['affNISTdata']['image'].transpose()

    dataset2 = loadmat('2.mat')
    ans_train2 = dataset2['affNISTdata']['label_int']
    train_set2 = dataset2['affNISTdata']['image'].transpose()

    ans_train = np.hstack((ans_train, ans_train2))
    train_set = np.vstack((train_set, train_set2))

    network = Network(layers, neuron_count, train_set[1])
    network.train(train_set, ans_train, epochs)


    dataset = loadmat('3.mat')
    ans_train = dataset['affNISTdata']['label_int']
    train_set = dataset['affNISTdata']['image'].transpose()

    guess_list = network.run_unseen(train_set)
    print('Test Set')
    test_report = network.report_results(guess_list, ans_train)

    dataset = loadmat('4.mat')
    ans_train = dataset['affNISTdata']['label_int']
    train_set = dataset['affNISTdata']['image'].transpose()

    guess_list = network.run_unseen(train_set)
    print('Validation Set')
    val_report = network.report_results(guess_list, ans_train)

    file_name = 'finnegan/my_net_' + str(run_num) + '.pickle'
    g = open(file_name, 'wb')
    pickle.dump(network, g, protocol=4)
    g.close()

    file_name_2 = 'finnegan/my_net_report_' + str(run_num) + '.txt'
    h = open(file_name_2, 'w')
    details = 'Neuron Counts: ' + str(neuron_count) + '\n'
    details_2 = 'Test Report: ' + test_report + '\n'
    details_3 = 'Validation Report: ' + val_report + '\n'
    h.write(details)
    h.write(details_2)
    h.write(details_3)
    h.close()

    return None