# Copyright 2015 The TensorFlow Authors. All Rights Reserved.

#

# 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.

# ==============================================================================

"""Contains Gradient functions for image ops."""

from __future__ import absolute_import

from __future__ import division

from __future__ import print_function

from tensorflow.python.framework import dtypes

from tensorflow.python.framework import ops

from tensorflow.python.ops import array_ops

from tensorflow.python.ops import gen_image_ops

@ops.RegisterGradient("ResizeNearestNeighbor")

def _ResizeNearestNeighborGrad(op, grad):

"""The derivatives for nearest neighbor resizing.

Args:

op: The ResizeNearestNeighbor op.

grad: The tensor representing the gradient w.r.t. the output.

Returns:

The gradients w.r.t. the input and the output.

"""

image = op.inputs[0]

if image.get_shape()[1:3].is_fully_defined():

image_shape = image.get_shape()[1:3]

else:

image_shape = array_ops.shape(image)[1:3]

# pylint: disable=protected-access

grads = gen_image_ops._resize_nearest_neighbor_grad(

grad,

image_shape,

align_corners=op.get_attr("align_corners"))

# pylint: enable=protected-access

return [grads, None]

@ops.RegisterGradient("ResizeBilinear")

def _ResizeBilinearGrad(op, grad):

"""The derivatives for bilinear resizing.

Args:

op: The ResizeBilinear op.

grad: The tensor representing the gradient w.r.t. the output.

Returns:

The gradients w.r.t. the input.

"""

allowed_types = [dtypes.float32, dtypes.float64]

grad0 = None

if op.inputs[0].dtype in allowed_types:

# pylint: disable=protected-access

grad0 = gen_image_ops._resize_bilinear_grad(

grad,

op.inputs[0],

align_corners=op.get_attr("align_corners"))

# pylint: enable=protected-access

return [grad0, None]

@ops.RegisterGradient("ResizeBicubic")

def _ResizeBicubicGrad(op, grad):

"""The derivatives for bicubic resizing.

Args:

op: The ResizeBicubic op.

grad: The tensor representing the gradient w.r.t. the output.

Returns:

The gradients w.r.t. the input.

"""

allowed_types = [dtypes.float32, dtypes.float64]

grad0 = None

if op.inputs[0].dtype in allowed_types:

# pylint: disable=protected-access

grad0 = gen_image_ops._resize_bicubic_grad(

grad, op.inputs[0], align_corners=op.get_attr("align_corners"))

# pylint: enable=protected-access

return [grad0, None]

@ops.RegisterGradient("CropAndResize")

def _CropAndResizeGrad(op, grad):

"""The derivatives for crop_and_resize.

We back-propagate to the image only when the input image tensor has floating

point dtype but we always back-propagate to the input boxes tensor.

Args:

op: The CropAndResize op.

grad: The tensor representing the gradient w.r.t. the output.

Returns:

The gradients w.r.t. the input image, boxes, as well as the always-None

gradients w.r.t. box_ind and crop_size.

"""

image = op.inputs[0]

if image.get_shape().is_fully_defined():

image_shape = image.get_shape().as_list()

else:

image_shape = array_ops.shape(image)

allowed_types = [dtypes.float16, dtypes.float32, dtypes.float64]

if op.inputs[0].dtype in allowed_types:

# pylint: disable=protected-access

grad0 = gen_image_ops.crop_and_resize_grad_image(grad,

op.inputs[1],

op.inputs[2],

image_shape,

T=op.get_attr("T"))

# pylint: enable=protected-access

else:

grad0 = None

grad1 = gen_image_ops.crop_and_resize_grad_boxes(grad, op.inputs[0],

op.inputs[1], op.inputs[2])

return [grad0, grad1, None, None]