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# coding: utf-8
# pylint: disable= arguments-differ
"""Basic neural network layers."""
__all__ = ['Activation', 'LeakyReLU', 'PReLU', 'ELU', 'SELU', 'Swish']
from ... import initializer
from ..block import HybridBlock
[docs]class Activation(HybridBlock):
r"""Applies an activation function to input.
Parameters
----------
activation : str
Name of activation function to use.
See :func:`~mxnet.ndarray.Activation` for available choices.
Inputs:
- **data**: input tensor with arbitrary shape.
Outputs:
- **out**: output tensor with the same shape as `data`.
"""
def __init__(self, activation, **kwargs):
self._act_type = activation
super(Activation, self).__init__(**kwargs)
def _alias(self):
return self._act_type
def hybrid_forward(self, F, x):
return F.Activation(x, act_type=self._act_type, name='fwd')
def __repr__(self):
s = '{name}({_act_type})'
return s.format(name=self.__class__.__name__,
**self.__dict__)
[docs]class LeakyReLU(HybridBlock):
r"""Leaky version of a Rectified Linear Unit.
It allows a small gradient when the unit is not active
.. math::
f\left(x\right) = \left\{
\begin{array}{lr}
\alpha x & : x \lt 0 \\
x & : x \geq 0 \\
\end{array}
\right.\\
Parameters
----------
alpha : float
slope coefficient for the negative half axis. Must be >= 0.
Inputs:
- **data**: input tensor with arbitrary shape.
Outputs:
- **out**: output tensor with the same shape as `data`.
"""
def __init__(self, alpha, **kwargs):
assert alpha >= 0, "Slope coefficient for LeakyReLU must be no less than 0."
super(LeakyReLU, self).__init__(**kwargs)
self._alpha = alpha
def hybrid_forward(self, F, x):
return F.LeakyReLU(x, act_type='leaky', slope=self._alpha, name='fwd')
def __repr__(self):
s = '{name}({alpha})'
return s.format(name=self.__class__.__name__,
alpha=self._alpha)
[docs]class PReLU(HybridBlock):
r"""Parametric leaky version of a Rectified Linear Unit.
`_ paper.
It learns a gradient when the unit is not active
.. math::
f\left(x\right) = \left\{
\begin{array}{lr}
\alpha x & : x \lt 0 \\
x & : x \geq 0 \\
\end{array}
\right.\\
where alpha is a learned parameter.
Parameters
----------
alpha_initializer : Initializer
Initializer for the `embeddings` matrix.
Inputs:
- **data**: input tensor with arbitrary shape.
Outputs:
- **out**: output tensor with the same shape as `data`.
"""
def __init__(self, alpha_initializer=initializer.Constant(0.25), **kwargs):
super(PReLU, self).__init__(**kwargs)
with self.name_scope():
self.alpha = self.params.get('alpha', shape=(1,), init=alpha_initializer)
def hybrid_forward(self, F, x, alpha):
return F.LeakyReLU(x, gamma=alpha, act_type='prelu', name='fwd')
[docs]class ELU(HybridBlock):
r"""
Exponential Linear Unit (ELU)
"Fast and Accurate Deep Network Learning by Exponential Linear Units", Clevert et al, 2016
https://arxiv.org/abs/1511.07289
Published as a conference paper at ICLR 2016
Parameters
----------
alpha : float
The alpha parameter as described by Clevert et al, 2016
Inputs:
- **data**: input tensor with arbitrary shape.
Outputs:
- **out**: output tensor with the same shape as `data`.
"""
def __init__(self, alpha=1.0, **kwargs):
super(ELU, self).__init__(**kwargs)
self._alpha = alpha
def hybrid_forward(self, F, x):
return F.where(x > 0, x, self._alpha * (F.exp(x) - 1.0))
[docs]class SELU(HybridBlock):
r"""
Scaled Exponential Linear Unit (SELU)
"Self-Normalizing Neural Networks", Klambauer et al, 2017
https://arxiv.org/abs/1706.02515
Inputs:
- **data**: input tensor with arbitrary shape.
Outputs:
- **out**: output tensor with the same shape as `data`.
"""
def __init__(self, **kwargs):
super(SELU, self).__init__(**kwargs)
def hybrid_forward(self, F, x):
return F.LeakyReLU(x, act_type='selu', name='fwd')
[docs]class Swish(HybridBlock):
r"""
Swish Activation function
https://arxiv.org/pdf/1710.05941.pdf
Parameters
----------
beta : float
swish(x) = x * sigmoid(beta*x)
Inputs:
- **data**: input tensor with arbitrary shape.
Outputs:
- **out**: output tensor with the same shape as `data`.
"""
def __init__(self, beta=1.0, **kwargs):
super(Swish, self).__init__(**kwargs)
self._beta = beta
def hybrid_forward(self, F, x):
return x * F.sigmoid(self._beta * x, name='fwd')