def test_four_layers_negative_padding(self): batch_size = 2 input_size = 256 images = tf.ones((batch_size, input_size, input_size, 3)) with tf.contrib.framework.arg_scope(pix2pix.pix2pix_arg_scope()): with self.assertRaises(ValueError): pix2pix.pix2pix_discriminator(images, num_filters=[64, 128, 256, 512], padding=-1)
def discriminator(image_batch, unused_conditioning=None): """A thin wrapper around the Pix2Pix discriminator to conform to TFGAN API.""" with tf.contrib.framework.arg_scope(pix2pix.pix2pix_arg_scope()): logits_4d, _ = pix2pix.pix2pix_discriminator( image_batch, num_filters=[64, 128, 256, 512]) logits_4d.shape.assert_has_rank(4) # Output of logits is 4D. Reshape to 2D, for TFGAN. logits_2d = tf.contrib.layers.flatten(logits_4d) return logits_2d
def test_output_size_conv2d_transpose(self): batch_size = 2 height, width = 256, 256 num_outputs = 4 images = tf.ones((batch_size, height, width, 3)) with tf.contrib.framework.arg_scope(pix2pix.pix2pix_arg_scope()): logits, _ = pix2pix.pix2pix_generator( images, num_outputs, blocks=self._reduced_default_blocks(), upsample_method='conv2d_transpose') with self.test_session() as session: session.run(tf.global_variables_initializer()) np_outputs = session.run(logits) self.assertListEqual([batch_size, height, width, num_outputs], list(np_outputs.shape))
def test_four_layers_no_padding(self): batch_size = 2 input_size = 256 output_size = self._layer_output_size(input_size, pad=0) output_size = self._layer_output_size(output_size, pad=0) output_size = self._layer_output_size(output_size, pad=0) output_size = self._layer_output_size(output_size, stride=1, pad=0) output_size = self._layer_output_size(output_size, stride=1, pad=0) images = tf.ones((batch_size, input_size, input_size, 3)) with tf.contrib.framework.arg_scope(pix2pix.pix2pix_arg_scope()): logits, end_points = pix2pix.pix2pix_discriminator( images, num_filters=[64, 128, 256, 512], padding=0) self.assertListEqual([batch_size, output_size, output_size, 1], logits.shape.as_list()) self.assertListEqual([batch_size, output_size, output_size, 1], end_points['predictions'].shape.as_list())
def test_block_number_dictates_number_of_layers(self): batch_size = 2 height, width = 256, 256 num_outputs = 4 images = tf.ones((batch_size, height, width, 3)) blocks = [ pix2pix.Block(64, 0.5), pix2pix.Block(128, 0), ] with tf.contrib.framework.arg_scope(pix2pix.pix2pix_arg_scope()): _, end_points = pix2pix.pix2pix_generator(images, num_outputs, blocks) num_encoder_layers = 0 num_decoder_layers = 0 for end_point in end_points: if end_point.startswith('encoder'): num_encoder_layers += 1 elif end_point.startswith('decoder'): num_decoder_layers += 1 self.assertEqual(num_encoder_layers, len(blocks)) self.assertEqual(num_decoder_layers, len(blocks))