Python/neural_network/perceptron.py

"""
    Perceptron
    w = w + N * (d(k) - y) * x(k)

    Using perceptron network for oil analysis, with Measuring of 3 parameters
    that represent chemical characteristics we can classify the oil, in p1 or p2
    p1 = -1
    p2 = 1
"""
import random


class Perceptron:
    def __init__(self, sample, target, learning_rate=0.01, epoch_number=1000, bias=-1):
        """
        Initializes a Perceptron network for oil analysis
        :param sample: sample dataset of 3 parameters with shape [30,3]
        :param target: variable for classification with two possible states -1 or 1
        :param learning_rate: learning rate used in optimizing.
        :param epoch_number: number of epochs to train network on.
        :param bias: bias value for the network.
        """
        self.sample = sample
        if len(self.sample) == 0:
            raise AttributeError("Sample data can not be empty")
        self.target = target
        if len(self.target) == 0:
            raise AttributeError("Target data can not be empty")
        if len(self.sample) != len(self.target):
            raise AttributeError(
                "Sample data and Target data do not have matching lengths"
            )
        self.learning_rate = learning_rate
        self.epoch_number = epoch_number
        self.bias = bias
        self.number_sample = len(sample)
        self.col_sample = len(sample[0])  # number of columns in dataset
        self.weight = []

    def training(self) -> None:
        """
        Trains perceptron for epochs <= given number of epochs
        :return: None
        >>> data = [[2.0149, 0.6192, 10.9263]]
        >>> targets = [-1]
        >>> perceptron = Perceptron(data,targets)
        >>> perceptron.training() # doctest: +ELLIPSIS
        ('\\nEpoch:\\n', ...)
        ...
        """
        for sample in self.sample:
            sample.insert(0, self.bias)

        for i in range(self.col_sample):
            self.weight.append(random.random())

        self.weight.insert(0, self.bias)

        epoch_count = 0

        while True:
            has_misclassified = False
            for i in range(self.number_sample):
                u = 0
                for j in range(self.col_sample + 1):
                    u = u + self.weight[j] * self.sample[i][j]
                y = self.sign(u)
                if y != self.target[i]:
                    for j in range(self.col_sample + 1):
                        self.weight[j] = (
                            self.weight[j]
                            + self.learning_rate
                            * (self.target[i] - y)
                            * self.sample[i][j]
                        )
                    has_misclassified = True
            # print('Epoch: \n',epoch_count)
            epoch_count = epoch_count + 1
            # if you want controle the epoch or just by erro
            if not has_misclassified:
                print(("\nEpoch:\n", epoch_count))
                print("------------------------\n")
                # if epoch_count > self.epoch_number or not erro:
                break

    def sort(self, sample) -> None:
        """
        :param sample: example row to classify as P1 or P2
        :return: None
        >>> data = [[2.0149, 0.6192, 10.9263]]
        >>> targets = [-1]
        >>> perceptron = Perceptron(data,targets)
        >>> perceptron.training() # doctest: +ELLIPSIS
        ('\\nEpoch:\\n', ...)
        ...
        >>> perceptron.sort([-0.6508, 0.1097, 4.0009]) # doctest: +ELLIPSIS
        ('Sample: ', ...)
        classification: P...
        """
        if len(self.sample) == 0:
            raise AttributeError("Sample data can not be empty")
        sample.insert(0, self.bias)
        u = 0
        for i in range(self.col_sample + 1):
            u = u + self.weight[i] * sample[i]

        y = self.sign(u)

        if y == -1:
            print(("Sample: ", sample))
            print("classification: P1")
        else:
            print(("Sample: ", sample))
            print("classification: P2")

    def sign(self, u: float) -> int:
        """
        threshold function for classification
        :param u: input number
        :return: 1 if the input is greater than 0, otherwise -1
        >>> data = [[0],[-0.5],[0.5]]
        >>> targets = [1,-1,1]
        >>> perceptron = Perceptron(data,targets)
        >>> perceptron.sign(0)
        1
        >>> perceptron.sign(-0.5)
        -1
        >>> perceptron.sign(0.5)
        1
        """
        return 1 if u >= 0 else -1


samples = [
    [-0.6508, 0.1097, 4.0009],
    [-1.4492, 0.8896, 4.4005],
    [2.0850, 0.6876, 12.0710],
    [0.2626, 1.1476, 7.7985],
    [0.6418, 1.0234, 7.0427],
    [0.2569, 0.6730, 8.3265],
    [1.1155, 0.6043, 7.4446],
    [0.0914, 0.3399, 7.0677],
    [0.0121, 0.5256, 4.6316],
    [-0.0429, 0.4660, 5.4323],
    [0.4340, 0.6870, 8.2287],
    [0.2735, 1.0287, 7.1934],
    [0.4839, 0.4851, 7.4850],
    [0.4089, -0.1267, 5.5019],
    [1.4391, 0.1614, 8.5843],
    [-0.9115, -0.1973, 2.1962],
    [0.3654, 1.0475, 7.4858],
    [0.2144, 0.7515, 7.1699],
    [0.2013, 1.0014, 6.5489],
    [0.6483, 0.2183, 5.8991],
    [-0.1147, 0.2242, 7.2435],
    [-0.7970, 0.8795, 3.8762],
    [-1.0625, 0.6366, 2.4707],
    [0.5307, 0.1285, 5.6883],
    [-1.2200, 0.7777, 1.7252],
    [0.3957, 0.1076, 5.6623],
    [-0.1013, 0.5989, 7.1812],
    [2.4482, 0.9455, 11.2095],
    [2.0149, 0.6192, 10.9263],
    [0.2012, 0.2611, 5.4631],
]

exit = [
    -1,
    -1,
    -1,
    1,
    1,
    -1,
    1,
    -1,
    1,
    1,
    -1,
    1,
    -1,
    -1,
    -1,
    -1,
    1,
    1,
    1,
    1,
    -1,
    1,
    1,
    1,
    1,
    -1,
    -1,
    1,
    -1,
    1,
]


if __name__ == "__main__":
    import doctest

    doctest.testmod()

    network = Perceptron(
        sample=samples, target=exit, learning_rate=0.01, epoch_number=1000, bias=-1
    )
    network.training()
    print("Finished training perceptron")
    print("Enter values to predict or q to exit")
    while True:
        sample = []
        for i in range(len(samples[0])):
            observation = input("value: ").strip()
            if observation == "q":
                break
            observation = float(observation)
            sample.insert(i, observation)
        network.sort(sample)
psf/black code formatting (#1277) 2019-10-05 05:14:13 +00:00			`"""`
Travis CI: Add pytest --doctest-modules neural_network (#1028) * neural_network/perceptron.py: Add if __name__ == '__main__': * Remove tab indentation * Add neural_network to the pytests 2019-07-18 11:10:52 +00:00			`Perceptron`
			`w = w + N * (d(k) - y) * x(k)`
increment 1 2018-10-19 12:48:28 +00:00
:white_check_mark: added tests for Perceptron in Neural Networks (#1506) * :white_check_mark: added tests for Perceptron in Neural Networks * Space * Format code with psf/black 2019-10-29 10:53:29 +00:00			`Using perceptron network for oil analysis, with Measuring of 3 parameters`
			`that represent chemical characteristics we can classify the oil, in p1 or p2`
Travis CI: Add pytest --doctest-modules neural_network (#1028) * neural_network/perceptron.py: Add if __name__ == '__main__': * Remove tab indentation * Add neural_network to the pytests 2019-07-18 11:10:52 +00:00			`p1 = -1`
			`p2 = 1`
psf/black code formatting (#1277) 2019-10-05 05:14:13 +00:00			`"""`
increment 1 2018-10-19 12:48:28 +00:00			`import random`


			`class Perceptron:`
:white_check_mark: added tests for Perceptron in Neural Networks (#1506) * :white_check_mark: added tests for Perceptron in Neural Networks * Space * Format code with psf/black 2019-10-29 10:53:29 +00:00			`def __init__(self, sample, target, learning_rate=0.01, epoch_number=1000, bias=-1):`
			`"""`
			`Initializes a Perceptron network for oil analysis`
			`:param sample: sample dataset of 3 parameters with shape [30,3]`
			`:param target: variable for classification with two possible states -1 or 1`
			`:param learning_rate: learning rate used in optimizing.`
			`:param epoch_number: number of epochs to train network on.`
			`:param bias: bias value for the network.`
			`"""`
increment 1 2018-10-19 12:48:28 +00:00			`self.sample = sample`
:white_check_mark: added tests for Perceptron in Neural Networks (#1506) * :white_check_mark: added tests for Perceptron in Neural Networks * Space * Format code with psf/black 2019-10-29 10:53:29 +00:00			`if len(self.sample) == 0:`
			`raise AttributeError("Sample data can not be empty")`
			`self.target = target`
			`if len(self.target) == 0:`
			`raise AttributeError("Target data can not be empty")`
			`if len(self.sample) != len(self.target):`
			`raise AttributeError(`
			`"Sample data and Target data do not have matching lengths"`
			`)`
			`self.learning_rate = learning_rate`
increment 1 2018-10-19 12:48:28 +00:00			`self.epoch_number = epoch_number`
			`self.bias = bias`
			`self.number_sample = len(sample)`
:white_check_mark: added tests for Perceptron in Neural Networks (#1506) * :white_check_mark: added tests for Perceptron in Neural Networks * Space * Format code with psf/black 2019-10-29 10:53:29 +00:00			`self.col_sample = len(sample[0]) # number of columns in dataset`
increment 1 2018-10-19 12:48:28 +00:00			`self.weight = []`

:white_check_mark: added tests for Perceptron in Neural Networks (#1506) * :white_check_mark: added tests for Perceptron in Neural Networks * Space * Format code with psf/black 2019-10-29 10:53:29 +00:00			`def training(self) -> None:`
			`"""`
			`Trains perceptron for epochs <= given number of epochs`
			`:return: None`
			`>>> data = [[2.0149, 0.6192, 10.9263]]`
			`>>> targets = [-1]`
			`>>> perceptron = Perceptron(data,targets)`
			`>>> perceptron.training() # doctest: +ELLIPSIS`
			`('\\nEpoch:\\n', ...)`
			`...`
			`"""`
increment 1 2018-10-19 12:48:28 +00:00			`for sample in self.sample:`
			`sample.insert(0, self.bias)`

			`for i in range(self.col_sample):`
psf/black code formatting (#1277) 2019-10-05 05:14:13 +00:00			`self.weight.append(random.random())`
increment 1 2018-10-19 12:48:28 +00:00
			`self.weight.insert(0, self.bias)`

			`epoch_count = 0`

			`while True:`
:white_check_mark: added tests for Perceptron in Neural Networks (#1506) * :white_check_mark: added tests for Perceptron in Neural Networks * Space * Format code with psf/black 2019-10-29 10:53:29 +00:00			`has_misclassified = False`
increment 1 2018-10-19 12:48:28 +00:00			`for i in range(self.number_sample):`
			`u = 0`
			`for j in range(self.col_sample + 1):`
			`u = u + self.weight[j] * self.sample[i][j]`
			`y = self.sign(u)`
:white_check_mark: added tests for Perceptron in Neural Networks (#1506) * :white_check_mark: added tests for Perceptron in Neural Networks * Space * Format code with psf/black 2019-10-29 10:53:29 +00:00			`if y != self.target[i]:`
increment 1 2018-10-19 12:48:28 +00:00			`for j in range(self.col_sample + 1):`
psf/black code formatting (#1277) 2019-10-05 05:14:13 +00:00			`self.weight[j] = (`
			`self.weight[j]`
:white_check_mark: added tests for Perceptron in Neural Networks (#1506) * :white_check_mark: added tests for Perceptron in Neural Networks * Space * Format code with psf/black 2019-10-29 10:53:29 +00:00			`+ self.learning_rate`
			`* (self.target[i] - y)`
			`* self.sample[i][j]`
psf/black code formatting (#1277) 2019-10-05 05:14:13 +00:00			`)`
:white_check_mark: added tests for Perceptron in Neural Networks (#1506) * :white_check_mark: added tests for Perceptron in Neural Networks * Space * Format code with psf/black 2019-10-29 10:53:29 +00:00			`has_misclassified = True`
psf/black code formatting (#1277) 2019-10-05 05:14:13 +00:00			`# print('Epoch: \n',epoch_count)`
increment 1 2018-10-19 12:48:28 +00:00			`epoch_count = epoch_count + 1`
			`# if you want controle the epoch or just by erro`
:white_check_mark: added tests for Perceptron in Neural Networks (#1506) * :white_check_mark: added tests for Perceptron in Neural Networks * Space * Format code with psf/black 2019-10-29 10:53:29 +00:00			`if not has_misclassified:`
psf/black code formatting (#1277) 2019-10-05 05:14:13 +00:00			`print(("\nEpoch:\n", epoch_count))`
			`print("------------------------\n")`
			`# if epoch_count > self.epoch_number or not erro:`
increment 1 2018-10-19 12:48:28 +00:00			`break`

:white_check_mark: added tests for Perceptron in Neural Networks (#1506) * :white_check_mark: added tests for Perceptron in Neural Networks * Space * Format code with psf/black 2019-10-29 10:53:29 +00:00			`def sort(self, sample) -> None:`
			`"""`
			`:param sample: example row to classify as P1 or P2`
			`:return: None`
			`>>> data = [[2.0149, 0.6192, 10.9263]]`
			`>>> targets = [-1]`
			`>>> perceptron = Perceptron(data,targets)`
Update basic_maths.py (#1517) * Update basic_maths.py Add Doctests. * Update basic_maths.py * Add a space to fix the doctest 2019-10-29 20:54:31 +00:00			`>>> perceptron.training() # doctest: +ELLIPSIS`
:white_check_mark: added tests for Perceptron in Neural Networks (#1506) * :white_check_mark: added tests for Perceptron in Neural Networks * Space * Format code with psf/black 2019-10-29 10:53:29 +00:00			`('\\nEpoch:\\n', ...)`
			`...`
			`>>> perceptron.sort([-0.6508, 0.1097, 4.0009]) # doctest: +ELLIPSIS`
			`('Sample: ', ...)`
Factors of a number (#1493) * Factors of a number * Update factors.py * Fix mypy issue in basic_maths.py * Fix mypy error in perceptron.py * def primes(max: int) -> List[int]: * Update binomial_heap.py * Add a space * Remove a space * Add a space 2019-10-29 22:54:31 +00:00			`classification: P...`
:white_check_mark: added tests for Perceptron in Neural Networks (#1506) * :white_check_mark: added tests for Perceptron in Neural Networks * Space * Format code with psf/black 2019-10-29 10:53:29 +00:00			`"""`
			`if len(self.sample) == 0:`
			`raise AttributeError("Sample data can not be empty")`
increment 1 2018-10-19 12:48:28 +00:00			`sample.insert(0, self.bias)`
			`u = 0`
			`for i in range(self.col_sample + 1):`
			`u = u + self.weight[i] * sample[i]`

			`y = self.sign(u)`

psf/black code formatting (#1277) 2019-10-05 05:14:13 +00:00			`if y == -1:`
			`print(("Sample: ", sample))`
			`print("classification: P1")`
increment 1 2018-10-19 12:48:28 +00:00			`else:`
psf/black code formatting (#1277) 2019-10-05 05:14:13 +00:00			`print(("Sample: ", sample))`
			`print("classification: P2")`
increment 1 2018-10-19 12:48:28 +00:00
:white_check_mark: added tests for Perceptron in Neural Networks (#1506) * :white_check_mark: added tests for Perceptron in Neural Networks * Space * Format code with psf/black 2019-10-29 10:53:29 +00:00			`def sign(self, u: float) -> int:`
			`"""`
			`threshold function for classification`
			`:param u: input number`
			`:return: 1 if the input is greater than 0, otherwise -1`
			`>>> data = [[0],[-0.5],[0.5]]`
			`>>> targets = [1,-1,1]`
			`>>> perceptron = Perceptron(data,targets)`
			`>>> perceptron.sign(0)`
			`1`
			`>>> perceptron.sign(-0.5)`
			`-1`
			`>>> perceptron.sign(0.5)`
			`1`
			`"""`
increment 1 2018-10-19 12:48:28 +00:00			`return 1 if u >= 0 else -1`


			`samples = [`
			`[-0.6508, 0.1097, 4.0009],`
			`[-1.4492, 0.8896, 4.4005],`
			`[2.0850, 0.6876, 12.0710],`
			`[0.2626, 1.1476, 7.7985],`
			`[0.6418, 1.0234, 7.0427],`
			`[0.2569, 0.6730, 8.3265],`
			`[1.1155, 0.6043, 7.4446],`
			`[0.0914, 0.3399, 7.0677],`
			`[0.0121, 0.5256, 4.6316],`
			`[-0.0429, 0.4660, 5.4323],`
			`[0.4340, 0.6870, 8.2287],`
			`[0.2735, 1.0287, 7.1934],`
			`[0.4839, 0.4851, 7.4850],`
			`[0.4089, -0.1267, 5.5019],`
			`[1.4391, 0.1614, 8.5843],`
			`[-0.9115, -0.1973, 2.1962],`
			`[0.3654, 1.0475, 7.4858],`
			`[0.2144, 0.7515, 7.1699],`
			`[0.2013, 1.0014, 6.5489],`
			`[0.6483, 0.2183, 5.8991],`
			`[-0.1147, 0.2242, 7.2435],`
			`[-0.7970, 0.8795, 3.8762],`
			`[-1.0625, 0.6366, 2.4707],`
			`[0.5307, 0.1285, 5.6883],`
			`[-1.2200, 0.7777, 1.7252],`
			`[0.3957, 0.1076, 5.6623],`
			`[-0.1013, 0.5989, 7.1812],`
			`[2.4482, 0.9455, 11.2095],`
			`[2.0149, 0.6192, 10.9263],`
psf/black code formatting (#1277) 2019-10-05 05:14:13 +00:00			`[0.2012, 0.2611, 5.4631],`
increment 1 2018-10-19 12:48:28 +00:00			`]`

psf/black code formatting (#1277) 2019-10-05 05:14:13 +00:00			`exit = [`
			`-1,`
			`-1,`
			`-1,`
			`1,`
			`1,`
			`-1,`
			`1,`
			`-1,`
			`1,`
			`1,`
			`-1,`
			`1,`
			`-1,`
			`-1,`
			`-1,`
			`-1,`
			`1,`
			`1,`
			`1,`
			`1,`
			`-1,`
			`1,`
			`1,`
			`1,`
			`1,`
			`-1,`
			`-1,`
			`1,`
			`-1,`
			`1,`
			`]`
increment 1 2018-10-19 12:48:28 +00:00

psf/black code formatting (#1277) 2019-10-05 05:14:13 +00:00			`if __name__ == "__main__":`
:white_check_mark: added tests for Perceptron in Neural Networks (#1506) * :white_check_mark: added tests for Perceptron in Neural Networks * Space * Format code with psf/black 2019-10-29 10:53:29 +00:00			`import doctest`

			`doctest.testmod()`

			`network = Perceptron(`
			`sample=samples, target=exit, learning_rate=0.01, epoch_number=1000, bias=-1`
			`)`
			`network.training()`
			`print("Finished training perceptron")`
			`print("Enter values to predict or q to exit")`
Travis CI: Add pytest --doctest-modules neural_network (#1028) * neural_network/perceptron.py: Add if __name__ == '__main__': * Remove tab indentation * Add neural_network to the pytests 2019-07-18 11:10:52 +00:00			`while True:`
			`sample = []`
:white_check_mark: added tests for Perceptron in Neural Networks (#1506) * :white_check_mark: added tests for Perceptron in Neural Networks * Space * Format code with psf/black 2019-10-29 10:53:29 +00:00			`for i in range(len(samples[0])):`
			`observation = input("value: ").strip()`
			`if observation == "q":`
			`break`
			`observation = float(observation)`
			`sample.insert(i, observation)`
Travis CI: Add pytest --doctest-modules neural_network (#1028) * neural_network/perceptron.py: Add if __name__ == '__main__': * Remove tab indentation * Add neural_network to the pytests 2019-07-18 11:10:52 +00:00			`network.sort(sample)`