Lab2
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abanin_daniil_lab_2/README.md
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abanin_daniil_lab_2/README.md
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## Лабораторная работа №2
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### Ранжирование признаков
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## ПИбд-41 Абанин Даниил
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### Как запустить лабораторную работу:
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* установить python, numpy, matplotlib, sklearn
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* запустить проект (стартовая точка lab2)
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### Какие технологии использовались:
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* Язык программирования `Python`, библиотеки numpy, matplotlib, sklearn
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* Среда разработки `PyCharm`
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### Что делает лабораторная работа:
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* Генерирует данные и обучает такие модели, как: LinearRegression, RandomizedLasso, Recursive Feature Elimination (RFE)
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* Производиться ранжирование признаков с помощью моделей LinearRegression, RandomizedLasso, Recursive Feature Elimination (RFE)
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* Отображение получившихся результатов: 4 самых важных признака по среднему значению, значения признаков для каждой модели
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### 4 самых важных признака по среднему значению
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* Параметр - x4, значение - 0.56
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* Параметр - x1, значение - 0.45
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* Параметр - x2, значение - 0.33
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* Параметр - x9, значение - 0.33
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####Linear Regression
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[('x1', 1.0), ('x4', 0.69), ('x2', 0.61), ('x11', 0.59), ('x3', 0.51), ('x13', 0.48), ('x5', 0.19), ('x12', 0.19), ('x14', 0.12), ('x8', 0.03), ('x6', 0.02), ('x10', 0.01), ('x7', 0.0), ('x9', 0.0)]
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####Recursive Feature Elimination
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[('x9', 1.0), ('x7', 0.86), ('x10', 0.71), ('x6', 0.57), ('x8', 0.43), ('x14', 0.29), ('x12', 0.14), ('x1', 0.0), ('x2', 0.0), ('x3', 0.0), ('x4', 0.0), ('x5', 0.0), ('x11', 0.0), ('x13', 0.0)]
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####Randomize Lasso
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[('x4', 1.0), ('x2', 0.37), ('x1', 0.36), ('x5', 0.32), ('x6', 0.02), ('x8', 0.02), ('x3', 0.01), ('x7', 0.0), ('x9', 0.0), ('x10', 0.0), ('x11', 0.0), ('x12', 0.0), ('x13', 0.0), ('x14', 0.0)]
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#### Результаты:
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![Result](result.png)
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abanin_daniil_lab_2/RadomizedLasso.py
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abanin_daniil_lab_2/RadomizedLasso.py
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from sklearn.utils import check_X_y, check_random_state
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from sklearn.linear_model import Lasso
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from scipy.sparse import issparse
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from scipy import sparse
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def _rescale_data(x, weights):
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if issparse(x):
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size = weights.shape[0]
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weight_dia = sparse.dia_matrix((1 - weights, 0), (size, size))
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x_rescaled = x * weight_dia
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else:
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x_rescaled = x * (1 - weights)
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return x_rescaled
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class RandomizedLasso(Lasso):
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"""
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Randomized version of scikit-learns Lasso class.
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Randomized LASSO is a generalization of the LASSO. The LASSO penalises
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the absolute value of the coefficients with a penalty term proportional
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to `alpha`, but the randomized LASSO changes the penalty to a randomly
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chosen value in the range `[alpha, alpha/weakness]`.
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Parameters
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----------
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weakness : float
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Weakness value for randomized LASSO. Must be in (0, 1].
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See also
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--------
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sklearn.linear_model.LogisticRegression : learns logistic regression models
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using the same algorithm.
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"""
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def __init__(self, weakness=0.5, alpha=1.0, fit_intercept=True,
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precompute=False, copy_X=True, max_iter=1000,
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tol=1e-4, warm_start=False, positive=False,
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random_state=None, selection='cyclic'):
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self.weakness = weakness
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super(RandomizedLasso, self).__init__(
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alpha=alpha, fit_intercept=fit_intercept, precompute=precompute, copy_X=copy_X,
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max_iter=max_iter, tol=tol, warm_start=warm_start,
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positive=positive, random_state=random_state,
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selection=selection)
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def fit(self, X, y):
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"""Fit the model according to the given training data.
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Parameters
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----------
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X : {array-like, sparse matrix}, shape = [n_samples, n_features]
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The training input samples.
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y : array-like, shape = [n_samples]
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The target values.
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"""
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if not isinstance(self.weakness, float) or not (0.0 < self.weakness <= 1.0):
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raise ValueError('weakness should be a float in (0, 1], got %s' % self.weakness)
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X, y = check_X_y(X, y, accept_sparse=True)
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n_features = X.shape[1]
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weakness = 1. - self.weakness
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random_state = check_random_state(self.random_state)
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weights = weakness * random_state.randint(0, 1 + 1, size=(n_features,))
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# TODO: I am afraid this will do double normalization if set to true
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#X, y, _, _ = _preprocess_data(X, y, self.fit_intercept, normalize=self.normalize, copy=False,
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# sample_weight=None, return_mean=False)
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# TODO: Check if this is a problem if it happens before standardization
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X_rescaled = _rescale_data(X, weights)
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return super(RandomizedLasso, self).fit(X_rescaled, y)
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abanin_daniil_lab_2/__pycache__/RadomizedLasso.cpython-39.pyc
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abanin_daniil_lab_2/__pycache__/RadomizedLasso.cpython-39.pyc
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abanin_daniil_lab_2/lab2.py
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abanin_daniil_lab_2/lab2.py
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from matplotlib import pyplot as plt
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from sklearn.linear_model import LinearRegression
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from RadomizedLasso import RandomizedLasso
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from sklearn.feature_selection import RFE
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from sklearn.preprocessing import MinMaxScaler
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import numpy as np
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names = ["x%s" % i for i in range(1, 15)]
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def start_point():
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X,Y = generation_data()
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# Линейная модель
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lr = LinearRegression()
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lr.fit(X, Y)
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# Рекурсивное сокращение признаков
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rfe = RFE(lr)
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rfe.fit(X, Y)
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# Случайное Лассо
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randomized_lasso = RandomizedLasso(alpha=.01)
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randomized_lasso.fit(X, Y)
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ranks = {"Linear Regression": rank_to_dict(lr.coef_), "Recursive Feature Elimination": rank_to_dict(rfe.ranking_),
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"Randomize Lasso": rank_to_dict(randomized_lasso.coef_)}
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get_estimation(ranks)
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print_sorted_data(ranks)
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def generation_data():
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np.random.seed(0)
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size = 750
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X = np.random.uniform(0, 1, (size, 14))
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Y = (10 * np.sin(np.pi * X[:, 0] * X[:, 1]) + 20 * (X[:, 2] - .5) ** 2 +
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10 * X[:, 3] + 5 * X[:, 4] ** 5 + np.random.normal(0, 1))
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X[:, 10:] = X[:, :4] + np.random.normal(0, .025, (size, 4))
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return X, Y
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def rank_to_dict(ranks):
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ranks = np.abs(ranks)
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minmax = MinMaxScaler()
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ranks = minmax.fit_transform(np.array(ranks).reshape(14, 1)).ravel()
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ranks = map(lambda x: round(x, 2), ranks)
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return dict(zip(names, ranks))
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def get_estimation(ranks: {}):
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mean = {}
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#«Бежим» по списку ranks
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for key, value in ranks.items():
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for item in value.items():
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if(item[0] not in mean):
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mean[item[0]] = 0
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mean[item[0]] += item[1]
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for key, value in mean.items():
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res = value/len(ranks)
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mean[key] = round(res, 2)
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mean_sorted = sorted(mean.items(), key=lambda item: item[1], reverse=True)
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print("Средние значения")
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print(mean_sorted)
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print("4 самых важных признака по среднему значению")
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for item in mean_sorted[:4]:
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print('Параметр - {0}, значение - {1}'.format(item[0], item[1]))
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def print_sorted_data(ranks: {}):
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print()
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for key, value in ranks.items():
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ranks[key] = sorted(value.items(), key=lambda item: item[1], reverse=True)
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for key, value in ranks.items():
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print(key)
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print(value)
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start_point()
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abanin_daniil_lab_2/result.png
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