forked from 170010011/fr
302 lines
11 KiB
Python
302 lines
11 KiB
Python
# Authors: Ashim Bhattarai <ashimb9@gmail.com>
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# Thomas J Fan <thomasjpfan@gmail.com>
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# License: BSD 3 clause
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import numpy as np
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from ._base import _BaseImputer
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from ..utils.validation import FLOAT_DTYPES
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from ..metrics import pairwise_distances_chunked
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from ..metrics.pairwise import _NAN_METRICS
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from ..neighbors._base import _get_weights
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from ..neighbors._base import _check_weights
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from ..utils import is_scalar_nan
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from ..utils._mask import _get_mask
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from ..utils.validation import check_is_fitted
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from ..utils.validation import _deprecate_positional_args
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class KNNImputer(_BaseImputer):
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"""Imputation for completing missing values using k-Nearest Neighbors.
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Each sample's missing values are imputed using the mean value from
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`n_neighbors` nearest neighbors found in the training set. Two samples are
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close if the features that neither is missing are close.
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Read more in the :ref:`User Guide <knnimpute>`.
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.. versionadded:: 0.22
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Parameters
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----------
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missing_values : int, float, str, np.nan or None, default=np.nan
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The placeholder for the missing values. All occurrences of
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`missing_values` will be imputed. For pandas' dataframes with
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nullable integer dtypes with missing values, `missing_values`
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should be set to np.nan, since `pd.NA` will be converted to np.nan.
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n_neighbors : int, default=5
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Number of neighboring samples to use for imputation.
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weights : {'uniform', 'distance'} or callable, default='uniform'
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Weight function used in prediction. Possible values:
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- 'uniform' : uniform weights. All points in each neighborhood are
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weighted equally.
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- 'distance' : weight points by the inverse of their distance.
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in this case, closer neighbors of a query point will have a
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greater influence than neighbors which are further away.
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- callable : a user-defined function which accepts an
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array of distances, and returns an array of the same shape
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containing the weights.
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metric : {'nan_euclidean'} or callable, default='nan_euclidean'
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Distance metric for searching neighbors. Possible values:
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- 'nan_euclidean'
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- callable : a user-defined function which conforms to the definition
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of ``_pairwise_callable(X, Y, metric, **kwds)``. The function
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accepts two arrays, X and Y, and a `missing_values` keyword in
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`kwds` and returns a scalar distance value.
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copy : bool, default=True
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If True, a copy of X will be created. If False, imputation will
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be done in-place whenever possible.
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add_indicator : bool, default=False
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If True, a :class:`MissingIndicator` transform will stack onto the
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output of the imputer's transform. This allows a predictive estimator
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to account for missingness despite imputation. If a feature has no
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missing values at fit/train time, the feature won't appear on the
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missing indicator even if there are missing values at transform/test
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time.
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Attributes
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----------
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indicator_ : :class:`~sklearn.impute.MissingIndicator`
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Indicator used to add binary indicators for missing values.
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``None`` if add_indicator is False.
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References
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----------
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* Olga Troyanskaya, Michael Cantor, Gavin Sherlock, Pat Brown, Trevor
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Hastie, Robert Tibshirani, David Botstein and Russ B. Altman, Missing
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value estimation methods for DNA microarrays, BIOINFORMATICS Vol. 17
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no. 6, 2001 Pages 520-525.
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Examples
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--------
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>>> import numpy as np
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>>> from sklearn.impute import KNNImputer
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>>> X = [[1, 2, np.nan], [3, 4, 3], [np.nan, 6, 5], [8, 8, 7]]
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>>> imputer = KNNImputer(n_neighbors=2)
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>>> imputer.fit_transform(X)
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array([[1. , 2. , 4. ],
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[3. , 4. , 3. ],
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[5.5, 6. , 5. ],
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[8. , 8. , 7. ]])
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"""
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@_deprecate_positional_args
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def __init__(self, *, missing_values=np.nan, n_neighbors=5,
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weights="uniform", metric="nan_euclidean", copy=True,
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add_indicator=False):
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super().__init__(
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missing_values=missing_values,
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add_indicator=add_indicator
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)
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self.n_neighbors = n_neighbors
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self.weights = weights
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self.metric = metric
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self.copy = copy
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def _calc_impute(self, dist_pot_donors, n_neighbors,
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fit_X_col, mask_fit_X_col):
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"""Helper function to impute a single column.
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Parameters
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----------
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dist_pot_donors : ndarray of shape (n_receivers, n_potential_donors)
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Distance matrix between the receivers and potential donors from
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training set. There must be at least one non-nan distance between
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a receiver and a potential donor.
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n_neighbors : int
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Number of neighbors to consider.
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fit_X_col : ndarray of shape (n_potential_donors,)
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Column of potential donors from training set.
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mask_fit_X_col : ndarray of shape (n_potential_donors,)
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Missing mask for fit_X_col.
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Returns
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-------
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imputed_values: ndarray of shape (n_receivers,)
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Imputed values for receiver.
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"""
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# Get donors
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donors_idx = np.argpartition(dist_pot_donors, n_neighbors - 1,
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axis=1)[:, :n_neighbors]
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# Get weight matrix from from distance matrix
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donors_dist = dist_pot_donors[
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np.arange(donors_idx.shape[0])[:, None], donors_idx]
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weight_matrix = _get_weights(donors_dist, self.weights)
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# fill nans with zeros
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if weight_matrix is not None:
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weight_matrix[np.isnan(weight_matrix)] = 0.0
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# Retrieve donor values and calculate kNN average
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donors = fit_X_col.take(donors_idx)
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donors_mask = mask_fit_X_col.take(donors_idx)
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donors = np.ma.array(donors, mask=donors_mask)
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return np.ma.average(donors, axis=1, weights=weight_matrix).data
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def fit(self, X, y=None):
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"""Fit the imputer on X.
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Parameters
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----------
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X : array-like shape of (n_samples, n_features)
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Input data, where `n_samples` is the number of samples and
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`n_features` is the number of features.
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Returns
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-------
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self : object
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"""
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# Check data integrity and calling arguments
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if not is_scalar_nan(self.missing_values):
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force_all_finite = True
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else:
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force_all_finite = "allow-nan"
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if self.metric not in _NAN_METRICS and not callable(self.metric):
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raise ValueError(
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"The selected metric does not support NaN values")
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if self.n_neighbors <= 0:
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raise ValueError(
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"Expected n_neighbors > 0. Got {}".format(self.n_neighbors))
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X = self._validate_data(X, accept_sparse=False, dtype=FLOAT_DTYPES,
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force_all_finite=force_all_finite,
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copy=self.copy)
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_check_weights(self.weights)
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self._fit_X = X
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self._mask_fit_X = _get_mask(self._fit_X, self.missing_values)
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super()._fit_indicator(self._mask_fit_X)
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return self
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def transform(self, X):
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"""Impute all missing values in X.
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Parameters
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----------
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X : array-like of shape (n_samples, n_features)
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The input data to complete.
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Returns
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-------
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X : array-like of shape (n_samples, n_output_features)
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The imputed dataset. `n_output_features` is the number of features
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that is not always missing during `fit`.
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"""
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check_is_fitted(self)
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if not is_scalar_nan(self.missing_values):
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force_all_finite = True
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else:
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force_all_finite = "allow-nan"
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X = self._validate_data(X, accept_sparse=False, dtype=FLOAT_DTYPES,
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force_all_finite=force_all_finite,
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copy=self.copy, reset=False)
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mask = _get_mask(X, self.missing_values)
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mask_fit_X = self._mask_fit_X
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valid_mask = ~np.all(mask_fit_X, axis=0)
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X_indicator = super()._transform_indicator(mask)
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# Removes columns where the training data is all nan
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if not np.any(mask):
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# No missing values in X
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# Remove columns where the training data is all nan
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return X[:, valid_mask]
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row_missing_idx = np.flatnonzero(mask.any(axis=1))
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non_missing_fix_X = np.logical_not(mask_fit_X)
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# Maps from indices from X to indices in dist matrix
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dist_idx_map = np.zeros(X.shape[0], dtype=int)
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dist_idx_map[row_missing_idx] = np.arange(row_missing_idx.shape[0])
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def process_chunk(dist_chunk, start):
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row_missing_chunk = row_missing_idx[start:start + len(dist_chunk)]
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# Find and impute missing by column
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for col in range(X.shape[1]):
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if not valid_mask[col]:
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# column was all missing during training
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continue
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col_mask = mask[row_missing_chunk, col]
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if not np.any(col_mask):
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# column has no missing values
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continue
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potential_donors_idx, = np.nonzero(non_missing_fix_X[:, col])
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# receivers_idx are indices in X
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receivers_idx = row_missing_chunk[np.flatnonzero(col_mask)]
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# distances for samples that needed imputation for column
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dist_subset = (dist_chunk[dist_idx_map[receivers_idx] - start]
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[:, potential_donors_idx])
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# receivers with all nan distances impute with mean
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all_nan_dist_mask = np.isnan(dist_subset).all(axis=1)
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all_nan_receivers_idx = receivers_idx[all_nan_dist_mask]
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if all_nan_receivers_idx.size:
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col_mean = np.ma.array(self._fit_X[:, col],
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mask=mask_fit_X[:, col]).mean()
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X[all_nan_receivers_idx, col] = col_mean
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if len(all_nan_receivers_idx) == len(receivers_idx):
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# all receivers imputed with mean
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continue
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# receivers with at least one defined distance
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receivers_idx = receivers_idx[~all_nan_dist_mask]
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dist_subset = (dist_chunk[dist_idx_map[receivers_idx]
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- start]
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[:, potential_donors_idx])
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n_neighbors = min(self.n_neighbors, len(potential_donors_idx))
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value = self._calc_impute(
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dist_subset,
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n_neighbors,
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self._fit_X[potential_donors_idx, col],
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mask_fit_X[potential_donors_idx, col])
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X[receivers_idx, col] = value
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# process in fixed-memory chunks
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gen = pairwise_distances_chunked(
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X[row_missing_idx, :],
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self._fit_X,
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metric=self.metric,
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missing_values=self.missing_values,
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force_all_finite=force_all_finite,
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reduce_func=process_chunk)
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for chunk in gen:
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# process_chunk modifies X in place. No return value.
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pass
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return super()._concatenate_indicator(X[:, valid_mask], X_indicator)
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