sklearn.metrics.pairwise
.euclidean_distances¶
-
sklearn.metrics.pairwise.
euclidean_distances
(X, Y=None, Y_norm_squared=None, squared=False, X_norm_squared=None)[source]¶ Considering the rows of X (and Y=X) as vectors, compute the distance matrix between each pair of vectors.
For efficiency reasons, the euclidean distance between a pair of row vector x and y is computed as:
dist(x, y) = sqrt(dot(x, x) - 2 * dot(x, y) + dot(y, y))
This formulation has two advantages over other ways of computing distances. First, it is computationally efficient when dealing with sparse data. Second, if one argument varies but the other remains unchanged, then
dot(x, x)
and/ordot(y, y)
can be pre-computed.However, this is not the most precise way of doing this computation, and the distance matrix returned by this function may not be exactly symmetric as required by, e.g.,
scipy.spatial.distance
functions.Read more in the User Guide.
- Parameters
- X{array-like, sparse matrix}, shape (n_samples_1, n_features)
- Y{array-like, sparse matrix}, shape (n_samples_2, n_features)
- Y_norm_squaredarray-like, shape (n_samples_2, ), optional
Pre-computed dot-products of vectors in Y (e.g.,
(Y**2).sum(axis=1)
) May be ignored in some cases, see the note below.- squaredboolean, optional
Return squared Euclidean distances.
- X_norm_squaredarray-like, shape = [n_samples_1], optional
Pre-computed dot-products of vectors in X (e.g.,
(X**2).sum(axis=1)
) May be ignored in some cases, see the note below.
- Returns
- distancesarray, shape (n_samples_1, n_samples_2)
See also
paired_distances
distances betweens pairs of elements of X and Y.
Notes
To achieve better accuracy,
X_norm_squared
andY_norm_squared
may be unused if they are passed asfloat32
.Examples
>>> from sklearn.metrics.pairwise import euclidean_distances >>> X = [[0, 1], [1, 1]] >>> # distance between rows of X >>> euclidean_distances(X, X) array([[0., 1.], [1., 0.]]) >>> # get distance to origin >>> euclidean_distances(X, [[0, 0]]) array([[1. ], [1.41421356]])