laywerrobot/lib/python3.6/site-packages/sklearn/utils/fixes.py
2020-08-27 21:55:39 +02:00

207 lines
7.1 KiB
Python

"""Compatibility fixes for older version of python, numpy and scipy
If you add content to this file, please give the version of the package
at which the fixe is no longer needed.
"""
# Authors: Emmanuelle Gouillart <emmanuelle.gouillart@normalesup.org>
# Gael Varoquaux <gael.varoquaux@normalesup.org>
# Fabian Pedregosa <fpedregosa@acm.org>
# Lars Buitinck
#
# License: BSD 3 clause
import warnings
import os
import errno
import numpy as np
import scipy.sparse as sp
import scipy
try:
from inspect import signature
except ImportError:
from ..externals.funcsigs import signature
def _parse_version(version_string):
version = []
for x in version_string.split('.'):
try:
version.append(int(x))
except ValueError:
# x may be of the form dev-1ea1592
version.append(x)
return tuple(version)
euler_gamma = getattr(np, 'euler_gamma',
0.577215664901532860606512090082402431)
np_version = _parse_version(np.__version__)
sp_version = _parse_version(scipy.__version__)
# Remove when minimum required NumPy >= 1.10
try:
if (not np.allclose(np.divide(.4, 1, casting="unsafe"),
np.divide(.4, 1, casting="unsafe", dtype=np.float64))
or not np.allclose(np.divide(.4, 1), .4)):
raise TypeError('Divide not working with dtype: '
'https://github.com/numpy/numpy/issues/3484')
divide = np.divide
except TypeError:
# Compat for old versions of np.divide that do not provide support for
# the dtype args
def divide(x1, x2, out=None, dtype=None):
out_orig = out
if out is None:
out = np.asarray(x1, dtype=dtype)
if out is x1:
out = x1.copy()
else:
if out is not x1:
out[:] = x1
if dtype is not None and out.dtype != dtype:
out = out.astype(dtype)
out /= x2
if out_orig is None and np.isscalar(x1):
out = np.asscalar(out)
return out
try:
with warnings.catch_warnings(record=True):
# Don't raise the numpy deprecation warnings that appear in
# 1.9, but avoid Python bug due to simplefilter('ignore')
warnings.simplefilter('always')
sp.csr_matrix([1.0, 2.0, 3.0]).max(axis=0)
except (TypeError, AttributeError):
# in scipy < 14.0, sparse matrix min/max doesn't accept an `axis` argument
# the following code is taken from the scipy 0.14 codebase
def _minor_reduce(X, ufunc):
major_index = np.flatnonzero(np.diff(X.indptr))
value = ufunc.reduceat(X.data, X.indptr[major_index])
return major_index, value
def _min_or_max_axis(X, axis, min_or_max):
N = X.shape[axis]
if N == 0:
raise ValueError("zero-size array to reduction operation")
M = X.shape[1 - axis]
mat = X.tocsc() if axis == 0 else X.tocsr()
mat.sum_duplicates()
major_index, value = _minor_reduce(mat, min_or_max)
not_full = np.diff(mat.indptr)[major_index] < N
value[not_full] = min_or_max(value[not_full], 0)
mask = value != 0
major_index = np.compress(mask, major_index)
value = np.compress(mask, value)
from scipy.sparse import coo_matrix
if axis == 0:
res = coo_matrix((value, (np.zeros(len(value)), major_index)),
dtype=X.dtype, shape=(1, M))
else:
res = coo_matrix((value, (major_index, np.zeros(len(value)))),
dtype=X.dtype, shape=(M, 1))
return res.A.ravel()
def _sparse_min_or_max(X, axis, min_or_max):
if axis is None:
if 0 in X.shape:
raise ValueError("zero-size array to reduction operation")
zero = X.dtype.type(0)
if X.nnz == 0:
return zero
m = min_or_max.reduce(X.data.ravel())
if X.nnz != np.product(X.shape):
m = min_or_max(zero, m)
return m
if axis < 0:
axis += 2
if (axis == 0) or (axis == 1):
return _min_or_max_axis(X, axis, min_or_max)
else:
raise ValueError("invalid axis, use 0 for rows, or 1 for columns")
def sparse_min_max(X, axis):
return (_sparse_min_or_max(X, axis, np.minimum),
_sparse_min_or_max(X, axis, np.maximum))
else:
def sparse_min_max(X, axis):
return (X.min(axis=axis).toarray().ravel(),
X.max(axis=axis).toarray().ravel())
if sp_version < (0, 15):
# Backport fix for scikit-learn/scikit-learn#2986 / scipy/scipy#4142
from ._scipy_sparse_lsqr_backport import lsqr as sparse_lsqr
else:
from scipy.sparse.linalg import lsqr as sparse_lsqr # noqa
try: # SciPy >= 0.19
from scipy.special import comb, logsumexp
except ImportError:
from scipy.misc import comb, logsumexp # noqa
def parallel_helper(obj, methodname, *args, **kwargs):
"""Workaround for Python 2 limitations of pickling instance methods"""
return getattr(obj, methodname)(*args, **kwargs)
if 'exist_ok' in signature(os.makedirs).parameters:
makedirs = os.makedirs
else:
def makedirs(name, mode=0o777, exist_ok=False):
"""makedirs(name [, mode=0o777][, exist_ok=False])
Super-mkdir; create a leaf directory and all intermediate ones. Works
like mkdir, except that any intermediate path segment (not just the
rightmost) will be created if it does not exist. If the target
directory already exists, raise an OSError if exist_ok is False.
Otherwise no exception is raised. This is recursive.
"""
try:
os.makedirs(name, mode=mode)
except OSError as e:
if (not exist_ok or e.errno != errno.EEXIST
or not os.path.isdir(name)):
raise
if np_version < (1, 12):
class MaskedArray(np.ma.MaskedArray):
# Before numpy 1.12, np.ma.MaskedArray object is not picklable
# This fix is needed to make our model_selection.GridSearchCV
# picklable as the ``cv_results_`` param uses MaskedArray
def __getstate__(self):
"""Return the internal state of the masked array, for pickling
purposes.
"""
cf = 'CF'[self.flags.fnc]
data_state = super(np.ma.MaskedArray, self).__reduce__()[2]
return data_state + (np.ma.getmaskarray(self).tostring(cf),
self._fill_value)
else:
from numpy.ma import MaskedArray # noqa
# To be removed once this fix is included in six
try:
from collections.abc import Sequence as _Sequence # noqa
from collections.abc import Iterable as _Iterable # noqa
from collections.abc import Mapping as _Mapping # noqa
from collections.abc import Sized as _Sized # noqa
except ImportError: # python <3.3
from collections import Sequence as _Sequence # noqa
from collections import Iterable as _Iterable # noqa
from collections import Mapping as _Mapping # noqa
from collections import Sized as _Sized # noqa