我们从Python开源项目中,提取了以下4个代码示例,用于说明如何使用sklearn.linear_model.ARDRegression()。
def function(self): params = { 'n_iter': self.numOfIterationsSpinBox.value(), 'tol': self.toleranceDoubleSpinBox.value(), 'alpha_1': self.alpha1DoubleSpinBox.value(), 'alpha_2': self.alpha2DoubleSpinBox.value(), 'lambda_1': self.lambdaDoubleSpinBox.value(), 'lambda_2': self.lambdaDoubleSpinBox_2.value(), 'compute_score': self.computerScoreCheckBox.isChecked(), 'threshold_lambda': self.thresholdLambdaSpinBox.value(), 'fit_intercept': self.fitInterceptCheckBox.isChecked(), 'normalize': self.normalizeCheckBox.isChecked(), 'copy_X': self.copyXCheckBox.isChecked(), 'verbose': self.verboseCheckBox.isChecked()} return params, self.getChangedValues(params, ARDRegression())
def getModels(): result = [] result.append("LinearRegression") result.append("BayesianRidge") result.append("ARDRegression") result.append("ElasticNet") result.append("HuberRegressor") result.append("Lasso") result.append("LassoLars") result.append("Rigid") result.append("SGDRegressor") result.append("SVR") result.append("MLPClassifier") result.append("KNeighborsClassifier") result.append("SVC") result.append("GaussianProcessClassifier") result.append("DecisionTreeClassifier") result.append("RandomForestClassifier") result.append("AdaBoostClassifier") result.append("GaussianNB") result.append("LogisticRegression") result.append("QuadraticDiscriminantAnalysis") return result
def test_check_is_fitted(): # Check is ValueError raised when non estimator instance passed assert_raises(ValueError, check_is_fitted, ARDRegression, "coef_") assert_raises(TypeError, check_is_fitted, "SVR", "support_") ard = ARDRegression() svr = SVR() try: assert_raises(NotFittedError, check_is_fitted, ard, "coef_") assert_raises(NotFittedError, check_is_fitted, svr, "support_") except ValueError: assert False, "check_is_fitted failed with ValueError" # NotFittedError is a subclass of both ValueError and AttributeError try: check_is_fitted(ard, "coef_", "Random message %(name)s, %(name)s") except ValueError as e: assert_equal(str(e), "Random message ARDRegression, ARDRegression") try: check_is_fitted(svr, "support_", "Another message %(name)s, %(name)s") except AttributeError as e: assert_equal(str(e), "Another message SVR, SVR") ard.fit(*make_blobs()) svr.fit(*make_blobs()) assert_equal(None, check_is_fitted(ard, "coef_")) assert_equal(None, check_is_fitted(svr, "support_"))
def getSKLearnModel(modelName): if modelName == 'LinearRegression': model = linear_model.LinearRegression() elif modelName == 'BayesianRidge': model = linear_model.BayesianRidge() elif modelName == 'ARDRegression': model = linear_model.ARDRegression() elif modelName == 'ElasticNet': model = linear_model.ElasticNet() elif modelName == 'HuberRegressor': model = linear_model.HuberRegressor() elif modelName == 'Lasso': model = linear_model.Lasso() elif modelName == 'LassoLars': model = linear_model.LassoLars() elif modelName == 'Rigid': model = linear_model.Ridge() elif modelName == 'SGDRegressor': model = linear_model.SGDRegressor() elif modelName == 'SVR': model = SVR() elif modelName=='MLPClassifier': model = MLPClassifier() elif modelName=='KNeighborsClassifier': model = KNeighborsClassifier() elif modelName=='SVC': model = SVC() elif modelName=='GaussianProcessClassifier': model = GaussianProcessClassifier() elif modelName=='DecisionTreeClassifier': model = DecisionTreeClassifier() elif modelName=='RandomForestClassifier': model = RandomForestClassifier() elif modelName=='AdaBoostClassifier': model = AdaBoostClassifier() elif modelName=='GaussianNB': model = GaussianNB() elif modelName=='LogisticRegression': model = linear_model.LogisticRegression() elif modelName=='QuadraticDiscriminantAnalysis': model = QuadraticDiscriminantAnalysis() return model
