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Python utils.safe_mask函数代码示例

本文整理汇总了Python中sklearn.utils.safe_mask函数的典型用法代码示例。如果您正苦于以下问题:Python safe_mask函数的具体用法?Python safe_mask怎么用?Python safe_mask使用的例子?那么恭喜您, 这里精选的函数代码示例或许可以为您提供帮助。


在下文中一共展示了safe_mask函数的15个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的Python代码示例。

示例1: test_safe_mask

def test_safe_mask():
    random_state = check_random_state(0)
    X = random_state.rand(5, 4)
    X_csr = sp.csr_matrix(X)
    mask = [False, False, True, True, True]

    mask = safe_mask(X, mask)
    assert_equal(X[mask].shape[0], 3)

    mask = safe_mask(X_csr, mask)
    assert_equal(X_csr[mask].shape[0], 3)
开发者ID:allefpablo,项目名称:scikit-learn,代码行数:11,代码来源:test_utils.py

示例2: test_select_percentile_classif_sparse

def test_select_percentile_classif_sparse():
    # Test whether the relative univariate feature selection
    # gets the correct items in a simple classification problem
    # with the percentile heuristic
    X, y = make_classification(
        n_samples=200,
        n_features=20,
        n_informative=3,
        n_redundant=2,
        n_repeated=0,
        n_classes=8,
        n_clusters_per_class=1,
        flip_y=0.0,
        class_sep=10,
        shuffle=False,
        random_state=0,
    )
    X = sparse.csr_matrix(X)
    univariate_filter = SelectPercentile(f_classif, percentile=25)
    X_r = univariate_filter.fit(X, y).transform(X)
    X_r2 = GenericUnivariateSelect(f_classif, mode="percentile", param=25).fit(X, y).transform(X)
    assert_array_equal(X_r.toarray(), X_r2.toarray())
    support = univariate_filter.get_support()
    gtruth = np.zeros(20)
    gtruth[:5] = 1
    assert_array_equal(support, gtruth)

    X_r2inv = univariate_filter.inverse_transform(X_r2)
    assert_true(sparse.issparse(X_r2inv))
    support_mask = safe_mask(X_r2inv, support)
    assert_equal(X_r2inv.shape, X.shape)
    assert_array_equal(X_r2inv[:, support_mask].toarray(), X_r.toarray())
    # Check other columns are empty
    assert_equal(X_r2inv.getnnz(), X_r.getnnz())
开发者ID:nelson-liu,项目名称:scikit-learn,代码行数:34,代码来源:test_feature_select.py

示例3: f_classifNumba

def f_classifNumba(X, y):
    """Compute the ANOVA F-value for the provided sample.

    Read more in the :ref:`User Guide <univariate_feature_selection>`.

    Parameters
    ----------
    X : {array-like, sparse matrix} shape = [n_samples, n_features]
        The set of regressors that will tested sequentially.

    y : array of shape(n_samples)
        The data matrix.

    Returns
    -------
    F : array, shape = [n_features,]
        The set of F values.

    pval : array, shape = [n_features,]
        The set of p-values.

    See also
    --------
    chi2: Chi-squared stats of non-negative features for classification tasks.
    f_regression: F-value between label/feature for regression tasks.
    """
    X, y = check_X_y(X, y, ['csr', 'csc', 'coo'])
    args = [X[safe_mask(X, y == k)] for k in np.unique(y)]
    return f_onewayNumba(*args)
开发者ID:stylianos-kampakis,项目名称:ADAN,代码行数:29,代码来源:feature_selection.py

示例4: transform

    def transform(self, X):
        """Reduce X to the selected features.

        Parameters
        ----------
        X : array of shape [n_samples, n_features]
            The input samples.

        Returns
        -------
        X_r : array of shape [n_samples, n_selected_features]
            The input samples with only the selected features.
        """
        masks = self.get_support()
        X_r = dict()
        for roi_id in self.roi_id_valid:
            mask = masks[roi_id]
            if len(mask) != X[roi_id].shape[1]:
                raise ValueError("Roi %g has a different shape than during fitting." % roi_id)
            if not mask.any():
                warn("No features were selected in roi %g: either the data is"
                     " too noisy or the selection test too strict." % roi_id,
                     UserWarning)
                X_r[roi_id] = np.empty(0).reshape((X[roi_id].shape[0], 0))
            else:
                X_r[roi_id] = X[roi_id][:, safe_mask(X[roi_id], mask)]
        return X_r
开发者ID:m-guggenmos,项目名称:decog,代码行数:27,代码来源:feature_selection.py

示例5: fit

    def fit(self, X, y):
        n_samples = X.shape[0]
        rs = check_random_state(self.random_state)

        self.label_binarizer_ = LabelBinarizer(neg_label=-1, pos_label=1)
        Y = self.label_binarizer_.fit_transform(y)
        self.classes_ = self.label_binarizer_.classes_.astype(np.int32)
        n_vectors = Y.shape[1]

        dual_coef = np.zeros((n_vectors, n_samples), dtype=np.float64)

        warm_start = False
        if self.warm_start and self.dual_coef_ is not None:
            warm_start = True
            dual_coef[:, self.support_indices_] = self.dual_coef_
        else:
            self.intercept_ = np.zeros((n_vectors,), dtype=np.float64)

        self.dual_coef_ = dual_coef

        kernel = self._get_kernel()
        kcache = KernelCache(kernel, n_samples, self.cache_mb, 1, self.verbose)
        self.support_vectors_ = X

        for i in xrange(n_vectors):
            b = _lasvm(
                self,
                self.dual_coef_[i],
                X,
                Y[:, i],
                kcache,
                self.selection,
                self.search_size,
                self.termination,
                self.sv_upper_bound,
                self.tau,
                self.finish_step,
                self.C,
                self.max_iter,
                rs,
                self.callback,
                verbose=self.verbose,
                warm_start=warm_start,
            )
            self.intercept_[i] = b

        sv = np.sum(self.dual_coef_ != 0, axis=0, dtype=bool)
        self.support_indices_ = np.arange(n_samples)[sv]

        if self.kernel != "precomputed":
            self.dual_coef_ = np.ascontiguousarray(self.dual_coef_[:, sv])
            mask = safe_mask(X, sv)
            self.support_vectors_ = X[mask]

        if self.verbose >= 1:
            print "Number of support vectors:", np.sum(sv)

        return self
开发者ID:ogrisel,项目名称:lightning,代码行数:58,代码来源:lasvm.py

示例6: _cross_val_score

def _cross_val_score(estimator, X, y, scorer, train, test, verbose, fit_params):
    """Inner loop for cross validation"""
    n_samples = X.shape[0] if sp.issparse(X) else len(X)
    fit_params = dict(
        [
            (k, np.asarray(v)[train] if hasattr(v, "__len__") and len(v) == n_samples else v)
            for k, v in fit_params.items()
        ]
    )
    if not hasattr(X, "shape"):
        if getattr(estimator, "_pairwise", False):
            raise ValueError(
                "Precomputed kernels or affinity matrices have " "to be passed as arrays or sparse matrices."
            )
        X_train = [X[idx] for idx in train]
        X_test = [X[idx] for idx in test]
    else:
        if getattr(estimator, "_pairwise", False):
            # X is a precomputed square kernel matrix
            if X.shape[0] != X.shape[1]:
                raise ValueError("X should be a square kernel matrix")
            X_train = X[np.ix_(train, train)]
            X_test = X[np.ix_(test, train)]
        else:
            X_train = X[safe_mask(X, train)]
            X_test = X[safe_mask(X, test)]

    if y is None:
        y_train = None
        y_test = None
    else:
        y_train = y[train]
        y_test = y[test]
    estimator.fit(X_train, y_train, **fit_params)
    if scorer is None:
        score = estimator.score(X_test, y_test)
    else:
        score = scorer(estimator, X_test, y_test)
        if not isinstance(score, numbers.Number):
            raise ValueError("scoring must return a number, got %s (%s)" " instead." % (str(score), type(score)))
    if verbose > 1:
        print("score: %f" % score)
    return score
开发者ID:jamartinb,项目名称:kaggle,代码行数:43,代码来源:cross_validation.py

示例7: _check_prediction

def _check_prediction(estimator, X, y, ids, train, test):
    if not hasattr(X, "shape"):
        if getattr(estimator, "_pairwise", False):
            raise ValueError("Precomputed kernels or affinity matrices have "
                             "to be passed as arrays or sparse matrices.")
        X_train = [X[idx] for idx in train]
        X_test = [X[idx] for idx in test]
    else:
        if getattr(estimator, "_pairwise", False):
            # X is a precomputed square kernel matrix
            if X.shape[0] != X.shape[1]:
                raise ValueError("X should be a square kernel matrix")
            X_train = X[np.ix_(train, train)]
            X_test = X[np.ix_(test, train)]
        else:
            X_train = X[safe_mask(X, train)]
            X_test = X[safe_mask(X, test)]

    y_train = y[train]
    y_test = y[test]
    ids_test = [ids[idx] for idx in test]

    y_test_n = sum(y_test)
    print 'ids_test', len(ids_test)
    print 'y_test_n', y_test_n

    estimator.fit(X_train, y_train)
    predicted_scores = estimator.predict_proba(X_test).T[1]

    errors = []
    processed = 0
    # for pred_score, id_test, y_test_i in sorted(zip(predicted_scores, ids_test, y_test), reverse=True)[:y_test_n]:
    for pred_score, id_test, y_test_i in zip(predicted_scores, ids_test, y_test):
        processed += 1
        errors.append((pred_score, id_test))
        #if y_test_i == 0:
        #    errors.append((pred_score, id_test))

    print 'errors', len(errors)
    print 'processed', processed

    return errors
开发者ID:rodion-zheludkov,项目名称:kaggle,代码行数:42,代码来源:utils.py

示例8: _post_process

    def _post_process(self, X):
        # We can't know the support vectors when using precomputed kernels.
        if self.kernel != "precomputed":
            sv = np.sum(self.coef_ != 0, axis=0, dtype=bool)
            self.coef_ = np.ascontiguousarray(self.coef_[:, sv])
            mask = safe_mask(X, sv)
            self.support_vectors_ = np.ascontiguousarray(X[mask])
            self.support_indices_ = np.arange(X.shape[0], dtype=np.int32)[sv]

        if self.verbose >= 1:
            print "Number of support vectors:", np.sum(sv)
开发者ID:Raz0r,项目名称:lightning,代码行数:11,代码来源:base.py

示例9: meta_cross_val_score

def meta_cross_val_score(estimator, Xs, y, scorer, train, test):
    Xs_train = []
    Xs_test = []
    for X in Xs:
        X_train = X[safe_mask(X, train)]
        X_test = X[safe_mask(X, test)]
        Xs_train.append(X_train)
        Xs_test.append(X_test)

    y_train = y[train]
    y_test = y[test]

    estimator.fit(Xs_train, y_train)

    if scorer is None:
        score = estimator.score(Xs_test, y_test)
    else:
        score = scorer(estimator, Xs_test, y_test)

    return score
开发者ID:rodion-zheludkov,项目名称:kaggle,代码行数:20,代码来源:utils.py

示例10: score_each_boost

def score_each_boost(X, y, sample_weight,
                     clf, clf_params,
                     min_n_estimators,
                     train, test, loss_func,
                     score_func, verbose):
    """Run fit on one set of parameters

    Returns the score and the instance of the classifier
    """
    if hasattr(clf, 'kernel') and hasattr(clf.kernel, '__call__'):
        # cannot compute the kernel values with custom function
        raise ValueError(
            "Cannot use a custom kernel function. "
            "Precompute the kernel matrix instead.")

    X, y = check_arrays(X, y)

    if getattr(clf, "_pairwise", False):
        # X is a precomputed square kernel matrix
        if X.shape[0] != X.shape[1]:
            raise ValueError("X should be a square kernel matrix")
        X_train = X[np.ix_(train, train)]
        X_test = X[np.ix_(test, train)]
    else:
        X_train = X[safe_mask(X, train)]
        X_test = X[safe_mask(X, test)]

    if y is not None:
        y_test = y[safe_mask(y, test)]
        y_train = y[safe_mask(y, train)]
    else:
        y_test = None
        y_train = None

    if sample_weight is not None:
        sample_weight_test = sample_weight[safe_mask(sample_weight, test)]
        sample_weight_train = sample_weight[safe_mask(sample_weight, train)]
    else:
        sample_weight_test = None
        sample_weight_train = None

    if verbose > 1:
        start_time = time.time()
        msg = '%s' % (', '.join('%s=%s' % (k, v)
                                     for k, v in clf_params.iteritems()))
        print "[BoostGridSearchCV] %s %s" % (msg, (64 - len(msg)) * '.')

    if y is not None:
        if hasattr(y, 'shape'):
            this_n_test_samples = y.shape[0]
        else:
            this_n_test_samples = len(y)
    else:
        if hasattr(X, 'shape'):
            this_n_test_samples = X.shape[0]
        else:
            this_n_test_samples = len(X)

    all_scores = []
    all_clf_params = []
    n_test_samples = []

    # TODO: include support for sample_weight in score functions
    if loss_func is not None or score_func is not None:
        for i, y_pred in enumerate(clf.staged_predict(X_test)):
            if i + 1 < min_n_estimators:
                continue
            if loss_func is not None:
                score = -loss_func(y_test, y_pred)
            elif score_func is not None:
                score = score_func(y_test, y_pred)
            all_scores.append(score)
            clf_para = copy(clf_params)
            clf_para['n_estimators'] = i + 1
            all_clf_params.append(clf_para)
            n_test_samples.append(this_n_test_samples)

    else:
        if sample_weight_test is not None:
            for i, score in enumerate(clf.staged_score(X_test, y_test,
                sample_weight=sample_weight_test)):
                if i + 1 < min_n_estimators:
                    continue
                all_scores.append(score)
                clf_para = copy(clf_params)
                clf_para['n_estimators'] = i + 1
                all_clf_params.append(clf_para)
                n_test_samples.append(this_n_test_samples)

        else:
            for i, score in enumerate(clf.staged_score(X_test, y_test)):
                if i + 1 < min_n_estimators:
                    continue
                all_scores.append(score)
                clf_para = copy(clf_params)
                clf_para['n_estimators'] = i + 1
                all_clf_params.append(clf_para)
                n_test_samples.append(this_n_test_samples)

    # boosting may have stopped early
#.........这里部分代码省略.........
开发者ID:sagittaeri,项目名称:htt,代码行数:101,代码来源:grid_search.py

示例11: fit_grid_point

def fit_grid_point(X, y, sample_weight, base_clf,
                   clf_params, train, test, verbose,
                   **fit_params):
    """Run fit on one set of parameters

    Returns the score and the instance of the classifier
    """
    if verbose > 1:
        start_time = time.time()
        msg = '%s' % (', '.join('%s=%s' % (k, v)
                                     for k, v in clf_params.iteritems()))
        print "[BoostGridSearchCV] %s %s" % (msg, (64 - len(msg)) * '.')

    X, y = check_arrays(X, y)
    # update parameters of the classifier after a copy of its base structure
    clf = clone(base_clf)
    clf.set_params(**clf_params)

    if hasattr(base_clf, 'kernel') and hasattr(base_clf.kernel, '__call__'):
        # cannot compute the kernel values with custom function
        raise ValueError(
            "Cannot use a custom kernel function. "
            "Precompute the kernel matrix instead.")

    if getattr(base_clf, "_pairwise", False):
        # X is a precomputed square kernel matrix
        if X.shape[0] != X.shape[1]:
            raise ValueError("X should be a square kernel matrix")
        X_train = X[np.ix_(train, train)]
        X_test = X[np.ix_(test, train)]
    else:
        X_train = X[safe_mask(X, train)]
        X_test = X[safe_mask(X, test)]

    if y is not None:
        y_test = y[safe_mask(y, test)]
        y_train = y[safe_mask(y, train)]
    else:
        y_test = None
        y_train = None

    if sample_weight is not None:
        sample_weight_test = sample_weight[safe_mask(sample_weight, test)]
        sample_weight_train = sample_weight[safe_mask(sample_weight, train)]
    else:
        sample_weight_test = None
        sample_weight_train = None

    if sample_weight is not None:
        clf.fit(X_train, y_train,
                sample_weight=sample_weight_train,
                **fit_params)
    else:
        clf.fit(X_train, y_train, **fit_params)

    if verbose > 1:
        end_msg = "%s -%s" % (msg,
                              logger.short_format_time(time.time() -
                                                       start_time))
        print "[BoostGridSearchCV] %s %s" % ((64 - len(end_msg)) * '.', end_msg)
    return clf, clf_params, train, test
开发者ID:sagittaeri,项目名称:htt,代码行数:61,代码来源:grid_search.py

示例12: fit

    def fit(self, X, y, kcache=None):
        n_samples = X.shape[0]
        rs = check_random_state(self.random_state)

        self.label_binarizer_ = LabelBinarizer(neg_label=-1, pos_label=1)
        Y = self.label_binarizer_.fit_transform(y)
        self.classes_ = self.label_binarizer_.classes_.astype(np.int32)
        n_vectors = Y.shape[1]

        A = X
        C = self.C
        termination = self.termination

        if self.penalty == "l2" and self.components is not None:
            A = self.components

        if self.warm_start and self.coef_ is not None:
            coef = np.zeros((n_vectors, A.shape[0]), dtype=np.float64)
            coef[:, self.support_indices_] = self.coef_
            self.coef_ = coef
        else:
            self.coef_ = np.zeros((n_vectors, A.shape[0]), dtype=np.float64)
            self.errors_ = np.ones((n_vectors, n_samples), dtype=np.float64)

        indices = np.arange(A.shape[0], dtype=np.int32)

        if kcache is None:
            kernel = self._get_kernel()
            kcache = KernelCache(kernel, n_samples,
                                 self.cache_mb, 1, self.verbose)

        self.support_vectors_ = X
        self.intercept_ = np.zeros(n_vectors, dtype=np.float64)

        if self.penalty in ("l1", "l1l2"):
            for i in xrange(n_vectors):
                    _primal_cd_l2svm_l1r(self, self.coef_[i], self.errors_[i],
                                         X, Y[:, i], indices, kcache, False,
                                         self.selection, self.search_size,
                                         self.termination, self.sv_upper_bound,
                                         self.C, self.max_iter, rs, self.tol,
                                         self.callback, verbose=self.verbose)

        if self.penalty == "l1l2":
            sv = np.sum(self.coef_ != 0, axis=0, dtype=bool)
            self.support_indices_ = np.arange(n_samples, dtype=np.int32)[sv]
            indices = self.support_indices_.copy()
            A = X
            self.support_vectors_ = A
            if not self.warm_debiasing:
                self.coef_ = np.zeros((n_vectors, n_samples), dtype=np.float64)
                self.errors_ = np.ones((n_vectors, n_samples), dtype=np.float64)
            C = self.Cd
            termination = "convergence"

        if self.penalty in ("l2", "l1l2"):
            for i in xrange(n_vectors):
                _primal_cd_l2svm_l2r(self, self.coef_[i], self.errors_[i],
                                     X, A, Y[:, i], indices, kcache, False,
                                     termination, self.sv_upper_bound,
                                     C, self.max_iter, rs, self.tol,
                                     self.callback, verbose=self.verbose)

        sv = np.sum(self.coef_ != 0, axis=0, dtype=bool)
        self.support_indices_ = np.arange(A.shape[0], dtype=np.int32)[sv]

        if np.sum(sv) == 0:
            # Empty model...
            self.coef_ = None
            return self

        # We can't know the support vectors when using precomputed kernels.
        if self.kernel != "precomputed":
            self.coef_ = np.ascontiguousarray(self.coef_[:, sv])
            mask = safe_mask(X, sv)
            self.support_vectors_ = A[mask]

        if self.verbose >= 1:
            print "Number of support vectors:", np.sum(sv)

        return self
开发者ID:nagyistge,项目名称:lightning,代码行数:81,代码来源:primal_cd.py

示例13: create_components

def create_components(X, y=None, n_components=None,
                      class_distrib="global", verbose=0, random_state=None):

    random_state = check_random_state(random_state)

    if n_components is None or n_components < 0:
        raise ValueError("n_components must be a positive number.")

    n_samples, n_features = X.shape

    if 0 < n_components and n_components <= 1:
        n_components = int(n_components * n_samples)

    if verbose: print "Creating components with K-means..."
    start = time.time()

    if class_distrib == "global":
        kmeans = KMeans(k=n_components, n_init=1, random_state=random_state)
        kmeans.fit(X)
        components = kmeans.cluster_centers_

    elif class_distrib == "balanced":
        classes = np.unique(y)
        n_classes = classes.shape[0]
        k = n_components / n_classes
        components = []

        for c in classes:
            mask = safe_mask(X, y == c)
            X_mask = X[mask]
            if k >= X_mask.shape[0]:
                components.append(X_mask)
            else:
                kmeans = KMeans(k=k, n_init=1, random_state=random_state)
                kmeans.fit(X_mask)
                components.append(kmeans.cluster_centers_)

        components = np.vstack(components)

    elif class_distrib == "stratified":
        classes = np.unique(y)
        components = []

        for c in classes:
            mask = y == c
            n_c = np.sum(mask)
            k = n_components * n_c / n_samples
            mask = safe_mask(X, mask)
            kmeans = KMeans(k=k, n_init=1, random_state=random_state)
            kmeans.fit(X[mask])
            components.append(kmeans.cluster_centers_)

        components = np.vstack(components)

    else:
        raise ValueError("No supported class_distrib value.")

    if verbose:
        print "Done in", time.time() - start, "seconds"

    return components
开发者ID:nagyistge,项目名称:lightning,代码行数:61,代码来源:kmp.py

示例14: mapper

 def mapper(X, mask=support_mask):
     X = check_array(X, accept_sparse='csr')
     if len(mask.value) != X.shape[1]:
         raise ValueError("X has a different shape than during fitting.")
     return check_array(X, accept_sparse='csr')[:, safe_mask(X, mask.value)]
开发者ID:JaysonSunshine,项目名称:sparkit-learn,代码行数:5,代码来源:base.py

示例15: fit_grid_point_extended

def fit_grid_point_extended(X, y, base_estimator, parameters, train, test, scorer,
                   verbose, loss_func=None, extraOut="auto", **fit_params):
    """Run fit on one set of parameters.

Parameters
----------
X : array-like, sparse matrix or list
Input data.

y : array-like or None
Targets for input data.

base_estimator : estimator object
This estimator will be cloned and then fitted.

parameters : dict
Parameters to be set on base_estimator clone for this grid point.

train : ndarray, dtype int or bool
Boolean mask or indices for training set.

test : ndarray, dtype int or bool
Boolean mask or indices for test set.

scorer : callable or None.
If provided must be a scorer callable object / function with signature
``scorer(estimator, X, y)``.

verbose : int
Verbosity level.

**fit_params : kwargs
Additional parameter passed to the fit function of the estimator.


Returns
-------
score : float
Score of this parameter setting on given training / test split.

parameters : dict
The parameters that have been evaluated.

n_samples_test : int
Number of test samples in this split.
"""
    if verbose > 1:
        start_time = time.time()
        msg = '%s' % (', '.join('%s=%s' % (k, v)
                      for k, v in parameters.items()))
        print("[GridSearchCV] %s %s" % (msg, (64 - len(msg)) * '.'))

    # update parameters of the classifier after a copy of its base structure
    clf = clone(base_estimator)
    clf.set_params(**parameters)

    if hasattr(base_estimator, 'kernel') and callable(base_estimator.kernel):
        # cannot compute the kernel values with custom function
        raise ValueError("Cannot use a custom kernel function. "
                         "Precompute the kernel matrix instead.")

    if not hasattr(X, "shape"):
        if getattr(base_estimator, "_pairwise", False):
            raise ValueError("Precomputed kernels or affinity matrices have "
                             "to be passed as arrays or sparse matrices.")
        X_train = [X[idx] for idx in train]
        X_test = [X[idx] for idx in test]
    else:
        if getattr(base_estimator, "_pairwise", False):
            # X is a precomputed square kernel matrix
            if X.shape[0] != X.shape[1]:
                raise ValueError("X should be a square kernel matrix")
            X_train = X[np.ix_(train, train)]
            X_test = X[np.ix_(test, train)]
        else:
            X_train = X[safe_mask(X, train)]
            X_test = X[safe_mask(X, test)]

    if y is not None:
        y_test = y[safe_mask(y, test)]
        y_train = y[safe_mask(y, train)]
        clf.fit(X_train, y_train, **fit_params)

        if scorer is not None:
            this_score = scorer(clf, X_test, y_test)
        else:
            this_score = clf.score(X_test, y_test)
    else:
        clf.fit(X_train, **fit_params)
        if scorer is not None:
            this_score = scorer(clf, X_test)
        else:
            this_score = clf.score(X_test)

    if not isinstance(this_score, numbers.Number):
        raise ValueError("scoring must return a number, got %s (%s)"
                         " instead." % (str(this_score), type(this_score)))

    if verbose > 2:
        msg += ", score=%f" % this_score
#.........这里部分代码省略.........
开发者ID:jbjorne,项目名称:CAMDA2014,代码行数:101,代码来源:gridSearch.py


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