grid_to_graph#
- sklearn.feature_extraction.image.grid_to_graph(n_x, n_y, n_z=1, *, mask=None, return_as=<class 'scipy.sparse._coo.coo_matrix'>, dtype=<class 'int'>)[source]#
Graph of the pixel-to-pixel connections.
Edges exist if 2 voxels are connected.
- Parameters:
- n_xint
Dimension in x axis.
- n_yint
Dimension in y axis.
- n_zint, default=1
Dimension in z axis.
- maskndarray of shape (n_x, n_y, n_z), dtype=bool, default=None
An optional mask of the image, to consider only part of the pixels.
- return_asnp.ndarray or a sparse matrix class, default=sparse.coo_matrix
The class to use to build the returned adjacency matrix.
- dtypedtype, default=int
The data of the returned sparse matrix. By default it is int.
- Returns:
- graphnp.ndarray or a sparse matrix class
The computed adjacency matrix.
Examples
>>> import numpy as np >>> from sklearn.feature_extraction.image import grid_to_graph >>> shape_img = (4, 4, 1) >>> mask = np.zeros(shape=shape_img, dtype=bool) >>> mask[[1, 2], [1, 2], :] = True >>> graph = grid_to_graph(*shape_img, mask=mask) >>> print(graph) (0, 0) 1 (1, 1) 1