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I'm using keras to build a convolutional neural network for image segmentation and I want to use "reflection padding" instead of padding "same" but I cannot find a way to to do it in keras.

inputs = Input((num_channels, img_rows, img_cols))
conv1=Conv2D(32,3,padding='same',kernel_initializer='he_uniform',data_format='channels_first')(inputs)

Is there a way to implement a reflection layer and insert it in a keras model ?

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The accepted answer above is not working in the current Keras version. Here is the version that's working:

class ReflectionPadding2D(Layer):
    def __init__(self, padding=(1, 1), **kwargs):
        self.padding = tuple(padding)
        self.input_spec = [InputSpec(ndim=4)]
        super(ReflectionPadding2D, self).__init__(**kwargs)

    def compute_output_shape(self, s):
        """ If you are using "channels_last" configuration"""
        return (s[0], s[1] + 2 * self.padding[0], s[2] + 2 * self.padding[1], s[3])

    def call(self, x, mask=None):
        w_pad,h_pad = self.padding
        return tf.pad(x, [[0,0], [h_pad,h_pad], [w_pad,w_pad], [0,0] ], 'REFLECT')
  • jeevaa_v, can you explain a but about what you wrote? even a reference article which explains what reflection layers do, would be great – InAFlash Mar 20 '19 at 12:16
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    I have just created a custom layer in Keras using tensorflow's reflection padding. Regarding reflection padding or other kind of padding, see here: www-cs.engr.ccny.cuny.edu/~wolberg/cs470/hw/hw2_pad.txt – jeevaa_v Mar 20 '19 at 16:16
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    This implementation is helpful and clean, thanks for sharing! – Meng Lee Apr 4 '19 at 3:03
2

Found the solution! We have only to create a new class that takes a layer as input and use tensorflow predefined function to do it.

import tensorflow as tf
from keras.engine.topology import Layer
from keras.engine import InputSpec

class ReflectionPadding2D(Layer):
    def __init__(self, padding=(1, 1), **kwargs):
        self.padding = tuple(padding)
        self.input_spec = [InputSpec(ndim=4)]
        super(ReflectionPadding2D, self).__init__(**kwargs)

    def get_output_shape_for(self, s):
        """ If you are using "channels_last" configuration"""
        return (s[0], s[1] + 2 * self.padding[0], s[2] + 2 * self.padding[1], s[3])

    def call(self, x, mask=None):
        w_pad,h_pad = self.padding
        return tf.pad(x, [[0,0], [h_pad,h_pad], [w_pad,w_pad], [0,0] ], 'REFLECT')

# a little Demo
inputs = Input((img_rows, img_cols, num_channels))
padded_inputs= ReflectionPadding2D(padding=(1,1))(inputs)
conv1 = Conv2D(32, 3, padding='valid', kernel_initializer='he_uniform',
               data_format='channels_last')(padded_inputs)
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    But shouldn't the padding come before the convolution in the demo? – Elias Jul 24 '18 at 8:30
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    That did now work for me. still had the same shape afterwards – Christof Henkel Aug 24 '18 at 17:56
  • @ChristofHenkel check out my answer below. You should change the function name get_output_shape_for to compute_output_shape. – jeevaa_v Nov 17 '18 at 9:42
1
import tensorflow as tf
from keras.layers import Lambda

inp_padded = Lambda(lambda x: tf.pad(x, [[0,0], [27,27], [27,27], [0,0]], 'REFLECT'))(inp)

The solution from Akihiko did not work with the new keras version, so I came up with my own. The snippet pads a batch of 202x202x3 images to 256x256x3

  • really simple and effective solution – hirschme Dec 13 '19 at 20:30
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As you can check in the documentation there is no such 'reflect' padding. Only 'same' and 'valid' are implemented in keras.

You maybe try to implemented on your own or find if somebody already did it. You should base yourself in the Conv2D class and check where self.padding member variable is used.

  • I know that this is not yet implemented in keras. But, how to implement a reflect layer and add it to a keras model ? – Akihiko Jun 4 '18 at 9:46
  • Then you should clarify your question, to say that you want to implement padding by reflection. – Daniel GL Jun 4 '18 at 9:52
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The accepted answer does not work if we have undefined dimensions! There will be an error when compute_output_shape function is called. Here is the simple work around to that.

class ReflectionPadding2D(Layer):
    def __init__(self, padding=(1, 1), **kwargs):
        self.padding = tuple(padding)
        self.input_spec = [InputSpec(ndim=4)]
        super(ReflectionPadding2D, self).__init__(**kwargs)

    def compute_output_shape(self, s):
        if s[1] == None:
            return (None, None, None, s[3])
        return (s[0], s[1] + 2 * self.padding[0], s[2] + 2 * self.padding[1], s[3])

    def call(self, x, mask=None):
        w_pad, h_pad = self.padding
        return tf.pad(x, [[0, 0], [h_pad, h_pad], [w_pad, w_pad], [0, 0]], 'REFLECT')

    def get_config(self):
        config = super(ReflectionPadding2D, self).get_config()
        print(config)
        return config

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