Intelegentny_Pszczelarz/.venv/Lib/site-packages/sklearn/datasets/_olivetti_faces.py

"""Modified Olivetti faces dataset.

The original database was available from (now defunct)

    https://www.cl.cam.ac.uk/research/dtg/attarchive/facedatabase.html

The version retrieved here comes in MATLAB format from the personal
web page of Sam Roweis:

    https://cs.nyu.edu/~roweis/
"""

# Copyright (c) 2011 David Warde-Farley <wardefar at iro dot umontreal dot ca>
# License: BSD 3 clause

from os.path import exists
from os import makedirs, remove

import numpy as np
from scipy.io import loadmat
import joblib

from . import get_data_home
from ._base import _fetch_remote
from ._base import RemoteFileMetadata
from ._base import _pkl_filepath
from ._base import load_descr
from ..utils import check_random_state, Bunch

# The original data can be found at:
# https://cs.nyu.edu/~roweis/data/olivettifaces.mat
FACES = RemoteFileMetadata(
    filename="olivettifaces.mat",
    url="https://ndownloader.figshare.com/files/5976027",
    checksum="b612fb967f2dc77c9c62d3e1266e0c73d5fca46a4b8906c18e454d41af987794",
)


def fetch_olivetti_faces(
    *,
    data_home=None,
    shuffle=False,
    random_state=0,
    download_if_missing=True,
    return_X_y=False,
):
    """Load the Olivetti faces data-set from AT&T (classification).

    Download it if necessary.

    =================   =====================
    Classes                                40
    Samples total                         400
    Dimensionality                       4096
    Features            real, between 0 and 1
    =================   =====================

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

    Parameters
    ----------
    data_home : str, default=None
        Specify another download and cache folder for the datasets. By default
        all scikit-learn data is stored in '~/scikit_learn_data' subfolders.

    shuffle : bool, default=False
        If True the order of the dataset is shuffled to avoid having
        images of the same person grouped.

    random_state : int, RandomState instance or None, default=0
        Determines random number generation for dataset shuffling. Pass an int
        for reproducible output across multiple function calls.
        See :term:`Glossary <random_state>`.

    download_if_missing : bool, default=True
        If False, raise a IOError if the data is not locally available
        instead of trying to download the data from the source site.

    return_X_y : bool, default=False
        If True, returns `(data, target)` instead of a `Bunch` object. See
        below for more information about the `data` and `target` object.

        .. versionadded:: 0.22

    Returns
    -------
    data : :class:`~sklearn.utils.Bunch`
        Dictionary-like object, with the following attributes.

        data: ndarray, shape (400, 4096)
            Each row corresponds to a ravelled
            face image of original size 64 x 64 pixels.
        images : ndarray, shape (400, 64, 64)
            Each row is a face image
            corresponding to one of the 40 subjects of the dataset.
        target : ndarray, shape (400,)
            Labels associated to each face image.
            Those labels are ranging from 0-39 and correspond to the
            Subject IDs.
        DESCR : str
            Description of the modified Olivetti Faces Dataset.

    (data, target) : tuple if `return_X_y=True`
        Tuple with the `data` and `target` objects described above.

        .. versionadded:: 0.22
    """
    data_home = get_data_home(data_home=data_home)
    if not exists(data_home):
        makedirs(data_home)
    filepath = _pkl_filepath(data_home, "olivetti.pkz")
    if not exists(filepath):
        if not download_if_missing:
            raise IOError("Data not found and `download_if_missing` is False")

        print("downloading Olivetti faces from %s to %s" % (FACES.url, data_home))
        mat_path = _fetch_remote(FACES, dirname=data_home)
        mfile = loadmat(file_name=mat_path)
        # delete raw .mat data
        remove(mat_path)

        faces = mfile["faces"].T.copy()
        joblib.dump(faces, filepath, compress=6)
        del mfile
    else:
        faces = joblib.load(filepath)

    # We want floating point data, but float32 is enough (there is only
    # one byte of precision in the original uint8s anyway)
    faces = np.float32(faces)
    faces = faces - faces.min()
    faces /= faces.max()
    faces = faces.reshape((400, 64, 64)).transpose(0, 2, 1)
    # 10 images per class, 400 images total, each class is contiguous.
    target = np.array([i // 10 for i in range(400)])
    if shuffle:
        random_state = check_random_state(random_state)
        order = random_state.permutation(len(faces))
        faces = faces[order]
        target = target[order]
    faces_vectorized = faces.reshape(len(faces), -1)

    fdescr = load_descr("olivetti_faces.rst")

    if return_X_y:
        return faces_vectorized, target

    return Bunch(data=faces_vectorized, images=faces, target=target, DESCR=fdescr)
feature: "ANN commit 2" 2023-06-19 00:49:18 +02:00			`"""Modified Olivetti faces dataset.`

			`The original database was available from (now defunct)`

			`https://www.cl.cam.ac.uk/research/dtg/attarchive/facedatabase.html`

			`The version retrieved here comes in MATLAB format from the personal`
			`web page of Sam Roweis:`

			`https://cs.nyu.edu/~roweis/`
			`"""`

			`# Copyright (c) 2011 David Warde-Farley <wardefar at iro dot umontreal dot ca>`
			`# License: BSD 3 clause`

			`from os.path import exists`
			`from os import makedirs, remove`

			`import numpy as np`
			`from scipy.io import loadmat`
			`import joblib`

			`from . import get_data_home`
			`from ._base import _fetch_remote`
			`from ._base import RemoteFileMetadata`
			`from ._base import _pkl_filepath`
			`from ._base import load_descr`
			`from ..utils import check_random_state, Bunch`

			`# The original data can be found at:`
			`# https://cs.nyu.edu/~roweis/data/olivettifaces.mat`
			`FACES = RemoteFileMetadata(`
			`filename="olivettifaces.mat",`
			`url="https://ndownloader.figshare.com/files/5976027",`
			`checksum="b612fb967f2dc77c9c62d3e1266e0c73d5fca46a4b8906c18e454d41af987794",`
			`)`


			`def fetch_olivetti_faces(`
			`*,`
			`data_home=None,`
			`shuffle=False,`
			`random_state=0,`
			`download_if_missing=True,`
			`return_X_y=False,`
			`):`
			`"""Load the Olivetti faces data-set from AT&T (classification).`

			`Download it if necessary.`

			`================= =====================`
			`Classes 40`
			`Samples total 400`
			`Dimensionality 4096`
			`Features real, between 0 and 1`
			`================= =====================`

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

			`Parameters`
			`----------`
			`data_home : str, default=None`
			`Specify another download and cache folder for the datasets. By default`
			`all scikit-learn data is stored in '~/scikit_learn_data' subfolders.`

			`shuffle : bool, default=False`
			`If True the order of the dataset is shuffled to avoid having`
			`images of the same person grouped.`

			`random_state : int, RandomState instance or None, default=0`
			`Determines random number generation for dataset shuffling. Pass an int`
			`for reproducible output across multiple function calls.`
			See :term:`Glossary <random_state>`.

			`download_if_missing : bool, default=True`
			`If False, raise a IOError if the data is not locally available`
			`instead of trying to download the data from the source site.`

			`return_X_y : bool, default=False`
			If True, returns `(data, target)` instead of a `Bunch` object. See
			below for more information about the `data` and `target` object.

			`.. versionadded:: 0.22`

			`Returns`
			`-------`
			data : :class:`~sklearn.utils.Bunch`
			`Dictionary-like object, with the following attributes.`

			`data: ndarray, shape (400, 4096)`
			`Each row corresponds to a ravelled`
			`face image of original size 64 x 64 pixels.`
			`images : ndarray, shape (400, 64, 64)`
			`Each row is a face image`
			`corresponding to one of the 40 subjects of the dataset.`
			`target : ndarray, shape (400,)`
			`Labels associated to each face image.`
			`Those labels are ranging from 0-39 and correspond to the`
			`Subject IDs.`
			`DESCR : str`
			`Description of the modified Olivetti Faces Dataset.`

			(data, target) : tuple if `return_X_y=True`
			Tuple with the `data` and `target` objects described above.

			`.. versionadded:: 0.22`
			`"""`
			`data_home = get_data_home(data_home=data_home)`
			`if not exists(data_home):`
			`makedirs(data_home)`
			`filepath = _pkl_filepath(data_home, "olivetti.pkz")`
			`if not exists(filepath):`
			`if not download_if_missing:`
			raise IOError("Data not found and `download_if_missing` is False")

			`print("downloading Olivetti faces from %s to %s" % (FACES.url, data_home))`
			`mat_path = _fetch_remote(FACES, dirname=data_home)`
			`mfile = loadmat(file_name=mat_path)`
			`# delete raw .mat data`
			`remove(mat_path)`

			`faces = mfile["faces"].T.copy()`
			`joblib.dump(faces, filepath, compress=6)`
			`del mfile`
			`else:`
			`faces = joblib.load(filepath)`

			`# We want floating point data, but float32 is enough (there is only`
			`# one byte of precision in the original uint8s anyway)`
			`faces = np.float32(faces)`
			`faces = faces - faces.min()`
			`faces /= faces.max()`
			`faces = faces.reshape((400, 64, 64)).transpose(0, 2, 1)`
			`# 10 images per class, 400 images total, each class is contiguous.`
			`target = np.array([i // 10 for i in range(400)])`
			`if shuffle:`
			`random_state = check_random_state(random_state)`
			`order = random_state.permutation(len(faces))`
			`faces = faces[order]`
			`target = target[order]`
			`faces_vectorized = faces.reshape(len(faces), -1)`

			`fdescr = load_descr("olivetti_faces.rst")`

			`if return_X_y:`
			`return faces_vectorized, target`

			`return Bunch(data=faces_vectorized, images=faces, target=target, DESCR=fdescr)`