Source code for cvxpy.atoms.elementwise.exp
"""
Copyright 2013 Steven Diamond, Eric Chu
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
"""
import numpy as np
from cvxpy.atoms.elementwise.elementwise import Elementwise
from cvxpy.utilities import bounds as bounds_utils
[docs]
class exp(Elementwise):
"""Elementwise exponential function.
Computes the elementwise exponential of the input.
Mathematical definition:
.. math::
f(x) = e^{x}
Parameters
----------
x : Expression
Input expression.
"""
def __init__(self, x) -> None:
super(exp, self).__init__(x)
# Returns the matrix e^x[i, j].
@Elementwise.numpy_numeric
def numeric(self, values):
return np.exp(values[0])
def sign_from_args(self) -> tuple[bool, bool]:
"""Returns sign (is positive, is negative) of the expression.
"""
# Always positive.
return (True, False)
def bounds_from_args(self) -> tuple[np.ndarray, np.ndarray]:
"""Returns bounds for exp based on argument bounds."""
lb, ub = self.args[0].get_bounds()
return bounds_utils.exp_bounds(lb, ub)
def is_atom_convex(self) -> bool:
"""Is the atom convex?
"""
return True
def is_atom_concave(self) -> bool:
"""Is the atom concave?
"""
return False
def is_atom_smooth(self) -> bool:
"""Is the atom smooth?"""
return True
def is_atom_log_log_convex(self) -> bool:
"""Is the atom log-log convex?
"""
return True
def is_atom_log_log_concave(self) -> bool:
"""Is the atom log-log concave?
"""
return False
def is_incr(self, idx) -> bool:
"""Is the composition non-decreasing in argument idx?
"""
return True
def is_decr(self, idx) -> bool:
"""Is the composition non-increasing in argument idx?
"""
return False
def _grad(self, values):
"""Gives the (sub/super)gradient of the atom w.r.t. each argument.
Matrix expressions are vectorized, so the gradient is a matrix.
Args:
values: A list of numeric values for the arguments.
Returns:
A list of SciPy CSC sparse matrices or None.
"""
rows = self.args[0].size
cols = self.size
grad_vals = np.exp(values[0])
return [exp.elemwise_grad_to_diag(grad_vals, rows, cols)]