fast-depth-tf/dense_depth_functional.py

import tensorflow as tf
import tensorflow.keras as keras
import tensorflow_datasets as tfds

import fast_depth_functional as fd


def dense_upsample_block(input, out_channels, skip_connection):
    """
    Upsample block as described by dense depth in https://arxiv.org/pdf/1812.11941.pdf
    """
    x = keras.layers.UpSampling2D(interpolation='bilinear')(input)
    x = keras.layers.Concatenate()([x, skip_connection])
    x = keras.layers.Conv2D(filters=out_channels,
                            kernel_size=3, strides=1, padding='same')(x)
    x = keras.layers.Conv2D(filters=out_channels,
                            kernel_size=3, strides=1, padding='same')(x)
    return keras.layers.LeakyReLU(alpha=0.2)(x)


def dense_depth(size, weights=None, shape=(224, 224, 3)):
    input = keras.layers.Input(shape=shape)
    densenet = dense_net(input, size, weights, shape)

    densenet_output_channels = densenet.layers[-1].output.shape[-1]

    # Reduce the feature set (pointwise)
    decoder = keras.layers.Conv2D(filters=densenet_output_channels, kernel_size=1, padding='same')(densenet.output)

    # The actual decoder
    decoder = dense_upsample_block(
        decoder, densenet_output_channels // 2, densenet.get_layer('pool3_pool').output)
    decoder = dense_upsample_block(
        decoder, densenet_output_channels // 4, densenet.get_layer('pool2_pool').output)
    decoder = dense_upsample_block(
        decoder, densenet_output_channels // 8, densenet.get_layer('pool1').output)
    decoder = dense_upsample_block(
        decoder, densenet_output_channels // 16, densenet.get_layer('conv1/relu').output)

    conv3 = keras.layers.Conv2D(
        filters=1, kernel_size=3, strides=1, padding='same', name='conv3')(decoder)
    return keras.Model(inputs=input, outputs=conv3, name='dense_depth')


def dense_net(input, size, weights=None, shape=(224, 224, 3)):
    if size == 121:
        densenet = keras.applications.DenseNet121(input_tensor=input, input_shape=shape, weights=weights,
                                                  include_top=False)
    elif size == 169:
        densenet = keras.applications.DenseNet169(input_tensor=input, input_shape=shape, weights=weights,
                                                  include_top=False)
    else:
        densenet = keras.applications.DenseNet201(input_tensor=input, input_shape=shape, weights=weights,
                                                  include_top=False)

    for layer in densenet.layers:
        layer.trainable = True

    return densenet


def dense_nnconv5(size, weights=None, shape=(224, 224, 3), half_features=True):
    input = keras.layers.Input(shape=shape)
    densenet = dense_net(input, size, weights, shape)
    densenet_output_shape = densenet.layers[-1].output.shape

    # Reduce the feature set (pointwise)
    decoder = keras.layers.Conv2D(filters=int(densenet_output_shape[-1]), kernel_size=1, padding='same',
                            input_shape=densenet_output_shape, name='conv2')(densenet.output)

    # TODO: More intermediate layers here?

    # Fast Depth Decoder
    decoder = fd.nnconv5(decoder, densenet.get_layer('pool3_pool').output_shape[3], 1,
                   skip_connection=densenet.get_layer('pool3_pool').output)
    decoder = fd.nnconv5(decoder, densenet.get_layer('pool2_pool').output_shape[3], 2,
                   skip_connection=densenet.get_layer('pool2_pool').output)
    decoder = fd.nnconv5(decoder, densenet.get_layer('pool1').output_shape[3], 3,
                   skip_connection=densenet.get_layer('pool1').output)
    decoder = fd.nnconv5(decoder, densenet.get_layer('conv1/relu').output_shape[3], 4,
                   skip_connection=densenet.get_layer('conv1/relu').output)

    # Final Pointwise for depth extraction
    decoder = keras.layers.Conv2D(1, 1, padding='same')(decoder)
    decoder = keras.layers.BatchNormalization()(decoder)
    decoder = keras.layers.ReLU(6.)(decoder)
    return keras.Model(inputs=input, outputs=decoder, name="fast_dense_depth")


def load_nyu(download_dir='../nyu'):
    """
    Load the nyu_v2 dataset train split. Will be downloaded to ../nyu
    :return: nyu_v2 dataset builder
    """
    builder = tfds.builder('nyu_depth_v2')
    builder.download_and_prepare(download_dir=download_dir)
    return builder \
        .as_dataset(split='train', shuffle_files=True) \
        .shuffle(buffer_size=1024) \
        .batch(8) \
        .map(lambda x: fd.crop_and_resize(x))


def load_nyu_evaluate(download_dir='../nyu'):
    """
    Load the nyu_v2 dataset validation split. Will be downloaded to ../nyu
    :return: nyu_v2 dataset builder
    """
    builder = tfds.builder('nyu_depth_v2')
    builder.download_and_prepare(download_dir=download_dir)
    return builder.as_dataset(split='validation').batch(1).map(lambda x: fd.crop_and_resize(x))


if __name__ == '__main__':
    model = dense_depth(169, 'imagenet')
    model.summary()
    # model = dense_nnconv5(169, 'imagenet')
    # model.summary()