# Copyright 2017 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. # ============================================================================== """Class Head. Contains Class prediction head classes for different meta architectures. All the class prediction heads have a predict function that receives the `features` as the first argument and returns class predictions with background. """ import functools import tensorflow as tf from object_detection.predictors.heads import head slim = tf.contrib.slim class MaskRCNNClassHead(head.Head): """Mask RCNN class prediction head. Please refer to Mask RCNN paper: https://arxiv.org/abs/1703.06870 """ def __init__(self, is_training, num_class_slots, fc_hyperparams_fn, use_dropout, dropout_keep_prob): """Constructor. Args: is_training: Indicates whether the BoxPredictor is in training mode. num_class_slots: number of class slots. Note that num_class_slots may or may not include an implicit background category. fc_hyperparams_fn: A function to generate tf-slim arg_scope with hyperparameters for fully connected ops. use_dropout: Option to use dropout or not. Note that a single dropout op is applied here prior to both box and class predictions, which stands in contrast to the ConvolutionalBoxPredictor below. dropout_keep_prob: Keep probability for dropout. This is only used if use_dropout is True. """ super(MaskRCNNClassHead, self).__init__() self._is_training = is_training self._num_class_slots = num_class_slots self._fc_hyperparams_fn = fc_hyperparams_fn self._use_dropout = use_dropout self._dropout_keep_prob = dropout_keep_prob def predict(self, features, num_predictions_per_location=1): """Predicts boxes and class scores. Args: features: A float tensor of shape [batch_size, height, width, channels] containing features for a batch of images. num_predictions_per_location: Int containing number of predictions per location. Returns: class_predictions_with_background: A float tensor of shape [batch_size, 1, num_class_slots] representing the class predictions for the proposals. Raises: ValueError: If num_predictions_per_location is not 1. """ if num_predictions_per_location != 1: raise ValueError('Only num_predictions_per_location=1 is supported') spatial_averaged_roi_pooled_features = tf.reduce_mean( features, [1, 2], keep_dims=True, name='AvgPool') flattened_roi_pooled_features = slim.flatten( spatial_averaged_roi_pooled_features) if self._use_dropout: flattened_roi_pooled_features = slim.dropout( flattened_roi_pooled_features, keep_prob=self._dropout_keep_prob, is_training=self._is_training) with slim.arg_scope(self._fc_hyperparams_fn()): class_predictions_with_background = slim.fully_connected( flattened_roi_pooled_features, self._num_class_slots, activation_fn=None, scope='ClassPredictor') class_predictions_with_background = tf.reshape( class_predictions_with_background, [-1, 1, self._num_class_slots]) return class_predictions_with_background class ConvolutionalClassHead(head.Head): """Convolutional class prediction head.""" def __init__(self, is_training, num_class_slots, use_dropout, dropout_keep_prob, kernel_size, apply_sigmoid_to_scores=False, class_prediction_bias_init=0.0, use_depthwise=False): """Constructor. Args: is_training: Indicates whether the BoxPredictor is in training mode. num_class_slots: number of class slots. Note that num_class_slots may or may not include an implicit background category. use_dropout: Option to use dropout or not. Note that a single dropout op is applied here prior to both box and class predictions, which stands in contrast to the ConvolutionalBoxPredictor below. dropout_keep_prob: Keep probability for dropout. This is only used if use_dropout is True. kernel_size: Size of final convolution kernel. If the spatial resolution of the feature map is smaller than the kernel size, then the kernel size is automatically set to be min(feature_width, feature_height). apply_sigmoid_to_scores: if True, apply the sigmoid on the output class_predictions. class_prediction_bias_init: constant value to initialize bias of the last conv2d layer before class prediction. use_depthwise: Whether to use depthwise convolutions for prediction steps. Default is False. Raises: ValueError: if min_depth > max_depth. """ super(ConvolutionalClassHead, self).__init__() self._is_training = is_training self._num_class_slots = num_class_slots self._use_dropout = use_dropout self._dropout_keep_prob = dropout_keep_prob self._kernel_size = kernel_size self._apply_sigmoid_to_scores = apply_sigmoid_to_scores self._class_prediction_bias_init = class_prediction_bias_init self._use_depthwise = use_depthwise def predict(self, features, num_predictions_per_location): """Predicts boxes. Args: features: A float tensor of shape [batch_size, height, width, channels] containing image features. num_predictions_per_location: Number of box predictions to be made per spatial location. Returns: class_predictions_with_background: A float tensors of shape [batch_size, num_anchors, num_class_slots] representing the class predictions for the proposals. """ net = features if self._use_dropout: net = slim.dropout(net, keep_prob=self._dropout_keep_prob) if self._use_depthwise: class_predictions_with_background = slim.separable_conv2d( net, None, [self._kernel_size, self._kernel_size], padding='SAME', depth_multiplier=1, stride=1, rate=1, scope='ClassPredictor_depthwise') class_predictions_with_background = slim.conv2d( class_predictions_with_background, num_predictions_per_location * self._num_class_slots, [1, 1], activation_fn=None, normalizer_fn=None, normalizer_params=None, scope='ClassPredictor') else: class_predictions_with_background = slim.conv2d( net, num_predictions_per_location * self._num_class_slots, [self._kernel_size, self._kernel_size], activation_fn=None, normalizer_fn=None, normalizer_params=None, scope='ClassPredictor', biases_initializer=tf.constant_initializer( self._class_prediction_bias_init)) if self._apply_sigmoid_to_scores: class_predictions_with_background = tf.sigmoid( class_predictions_with_background) batch_size = features.get_shape().as_list()[0] if batch_size is None: batch_size = tf.shape(features)[0] class_predictions_with_background = tf.reshape( class_predictions_with_background, [batch_size, -1, self._num_class_slots]) return class_predictions_with_background # TODO(alirezafathi): See if possible to unify Weight Shared with regular # convolutional class head. class WeightSharedConvolutionalClassHead(head.Head): """Weight shared convolutional class prediction head. This head allows sharing the same set of parameters (weights) when called more then once on different feature maps. """ def __init__(self, num_class_slots, kernel_size=3, class_prediction_bias_init=0.0, use_dropout=False, dropout_keep_prob=0.8, use_depthwise=False, score_converter_fn=tf.identity): """Constructor. Args: num_class_slots: number of class slots. Note that num_class_slots may or may not include an implicit background category. kernel_size: Size of final convolution kernel. class_prediction_bias_init: constant value to initialize bias of the last conv2d layer before class prediction. use_dropout: Whether to apply dropout to class prediction head. dropout_keep_prob: Probability of keeping activiations. use_depthwise: Whether to use depthwise convolutions for prediction steps. Default is False. score_converter_fn: Callable elementwise nonlinearity (that takes tensors as inputs and returns tensors). """ super(WeightSharedConvolutionalClassHead, self).__init__() self._num_class_slots = num_class_slots self._kernel_size = kernel_size self._class_prediction_bias_init = class_prediction_bias_init self._use_dropout = use_dropout self._dropout_keep_prob = dropout_keep_prob self._use_depthwise = use_depthwise self._score_converter_fn = score_converter_fn def predict(self, features, num_predictions_per_location): """Predicts boxes. Args: features: A float tensor of shape [batch_size, height, width, channels] containing image features. num_predictions_per_location: Number of box predictions to be made per spatial location. Returns: class_predictions_with_background: A tensor of shape [batch_size, num_anchors, num_class_slots] representing the class predictions for the proposals. """ class_predictions_net = features if self._use_dropout: class_predictions_net = slim.dropout( class_predictions_net, keep_prob=self._dropout_keep_prob) if self._use_depthwise: conv_op = functools.partial(slim.separable_conv2d, depth_multiplier=1) else: conv_op = slim.conv2d class_predictions_with_background = conv_op( class_predictions_net, num_predictions_per_location * self._num_class_slots, [self._kernel_size, self._kernel_size], activation_fn=None, stride=1, padding='SAME', normalizer_fn=None, biases_initializer=tf.constant_initializer( self._class_prediction_bias_init), scope='ClassPredictor') batch_size = features.get_shape().as_list()[0] if batch_size is None: batch_size = tf.shape(features)[0] class_predictions_with_background = self._score_converter_fn( class_predictions_with_background) class_predictions_with_background = tf.reshape( class_predictions_with_background, [batch_size, -1, self._num_class_slots]) return class_predictions_with_background