/
mean_squared_error.py
61 lines (47 loc) · 1.86 KB
/
mean_squared_error.py
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import numpy
from chainer import function_node
import chainer.functions
from chainer.utils import type_check
class MeanSquaredError(function_node.FunctionNode):
"""Mean squared error (a.k.a. Euclidean loss) function."""
def check_type_forward(self, in_types):
type_check.expect(in_types.size() == 2)
type_check.expect(
in_types[0].dtype == numpy.float32,
in_types[1].dtype == numpy.float32,
in_types[0].shape == in_types[1].shape
)
def forward_cpu(self, inputs):
self.retain_inputs((0, 1))
diff = (inputs[0] - inputs[1]).ravel()
return numpy.array(diff.dot(diff) / diff.size, dtype=diff.dtype),
def forward_gpu(self, inputs):
self.retain_inputs((0, 1))
diff = (inputs[0] - inputs[1]).ravel()
return diff.dot(diff) / diff.dtype.type(diff.size),
def backward(self, indexes, gy):
x0, x1 = self.get_retained_inputs()
ret = []
diff = x0 - x1
gy0 = chainer.functions.broadcast_to(gy[0], diff.shape)
gx0 = gy0 * diff * (2. / diff.size)
if 0 in indexes:
ret.append(gx0)
if 1 in indexes:
ret.append(-gx0)
return ret
def mean_squared_error(x0, x1):
"""Mean squared error function.
This function computes mean squared error between two variables. The mean
is taken over the minibatch. Note that the error is not scaled by 1/2.
Args:
x0 (:class:`~chainer.Variable` or :class:`numpy.ndarray` or \
:class:`cupy.ndarray`): Input variable.
x1 (:class:`~chainer.Variable` or :class:`numpy.ndarray` or \
:class:`cupy.ndarray`): Input variable.
Returns:
~chainer.Variable:
A variable holding an array representing the mean squared
error of two inputs.
"""
return MeanSquaredError().apply((x0, x1))[0]