# Copyright 2016 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 a factory for building various models.""" from __future__ import absolute_import from __future__ import division from __future__ import print_function import functools import tensorflow as tf from nets import alexnet from nets import cifarnet from nets import inception from nets import lenet from nets import mobilenet_v1 from nets import overfeat from nets import resnet_v1 from nets import resnet_v2 from nets import vgg slim = tf.contrib.slim networks_map = {'alexnet_v2': alexnet.alexnet_v2, 'cifarnet': cifarnet.cifarnet, 'overfeat': overfeat.overfeat, 'vgg_a': vgg.vgg_a, 'vgg_16': vgg.vgg_16, 'vgg_19': vgg.vgg_19, 'inception_v1': inception.inception_v1, 'inception_v2': inception.inception_v2, 'inception_v3': inception.inception_v3, 'inception_v4': inception.inception_v4, 'inception_resnet_v2': inception.inception_resnet_v2, 'lenet': lenet.lenet, 'resnet_v1_50': resnet_v1.resnet_v1_50, 'resnet_v1_101': resnet_v1.resnet_v1_101, 'resnet_v1_152': resnet_v1.resnet_v1_152, 'resnet_v1_200': resnet_v1.resnet_v1_200, 'resnet_v2_50': resnet_v2.resnet_v2_50, 'resnet_v2_101': resnet_v2.resnet_v2_101, 'resnet_v2_152': resnet_v2.resnet_v2_152, 'resnet_v2_200': resnet_v2.resnet_v2_200, 'mobilenet_v1': mobilenet_v1.mobilenet_v1, } arg_scopes_map = {'alexnet_v2': alexnet.alexnet_v2_arg_scope, 'cifarnet': cifarnet.cifarnet_arg_scope, 'overfeat': overfeat.overfeat_arg_scope, 'vgg_a': vgg.vgg_arg_scope, 'vgg_16': vgg.vgg_arg_scope, 'vgg_19': vgg.vgg_arg_scope, 'inception_v1': inception.inception_v3_arg_scope, 'inception_v2': inception.inception_v3_arg_scope, 'inception_v3': inception.inception_v3_arg_scope, 'inception_v4': inception.inception_v4_arg_scope, 'inception_resnet_v2': inception.inception_resnet_v2_arg_scope, 'lenet': lenet.lenet_arg_scope, 'resnet_v1_50': resnet_v1.resnet_arg_scope, 'resnet_v1_101': resnet_v1.resnet_arg_scope, 'resnet_v1_152': resnet_v1.resnet_arg_scope, 'resnet_v1_200': resnet_v1.resnet_arg_scope, 'resnet_v2_50': resnet_v2.resnet_arg_scope, 'resnet_v2_101': resnet_v2.resnet_arg_scope, 'resnet_v2_152': resnet_v2.resnet_arg_scope, 'resnet_v2_200': resnet_v2.resnet_arg_scope, 'mobilenet_v1': mobilenet_v1.mobilenet_v1_arg_scope, } def get_network_fn(name, num_classes, weight_decay=0.0, is_training=False): """Returns a network_fn such as `logits, end_points = network_fn(images)`. Args: name: The name of the network. num_classes: The number of classes to use for classification. weight_decay: The l2 coefficient for the model weights. is_training: `True` if the model is being used for training and `False` otherwise. Returns: network_fn: A function that applies the model to a batch of images. It has the following signature: logits, end_points = network_fn(images) Raises: ValueError: If network `name` is not recognized. """ if name not in networks_map: raise ValueError('Name of network unknown %s' % name) arg_scope = arg_scopes_map[name](weight_decay=weight_decay) func = networks_map[name] @functools.wraps(func) def network_fn(images): with slim.arg_scope(arg_scope): return func(images, num_classes, is_training=is_training) if hasattr(func, 'default_image_size'): network_fn.default_image_size = func.default_image_size return network_fn