rogot_goldberg_binary_distance

skfp.distances.rogot_goldberg_binary_distance(vec_a: ndarray | csr_array, vec_b: ndarray | csr_array) → float

Rogot-Goldberg distance for vectors of binary values.

Computes the Rogot-Goldberg distance [1] [2] [3] for binary data between two input arrays or sparse matrices by subtracting the similarity from 1, using the formula:

\[dist(a, b) = 1 - sim(a, b)\]

See also rogot_goldberg_binary_similarity(). The calculated similarity falls within the range \([0, 1]\). Passing all-zero vectors to this function results in a similarity of 1.

Parameters:

• vec_a ({ndarray, sparse matrix}) – First binary input array or sparse matrix.

• vec_b ({ndarray, sparse matrix}) – Second binary input array or sparse matrix.

Returns:

distance – Rogot-Goldberg distance between vec_a and vec_b.

Return type:

float

References

[1]

Rogot E., Goldberg I.D. “A proposed index for measuring agreement in test-retest studies.” Journal of Chronic Diseases 19.9 (1966): 991-1006. <https://doi.org/10.1016/0021-9681(66)90032-4>`_

[2]

Deza M.M., Deza E. “Encyclopedia of Distances.” Springer, Berlin, Heidelberg, 2009.

[3]

RDKit documentation

Examples

>>> from skfp.distances import rogot_goldberg_binary_distance
>>> import numpy as np
>>> vec_a = np.array([1, 0, 1])
>>> vec_b = np.array([1, 0, 1])
>>> dist = rogot_goldberg_binary_distance(vec_a, vec_b)
>>> dist
0.0

>>> from scipy.sparse import csr_array
>>> vec_a = csr_array([[1, 0, 1]])
>>> vec_b = csr_array([[1, 0, 1]])
>>> dist = rogot_goldberg_binary_distance(vec_a, vec_b)
>>> dist
0.0