239 lines
5.7 KiB
Python
239 lines
5.7 KiB
Python
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# Copyright 2017 The TensorFlow Authors All Rights Reserved.
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#
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# Licensed under the Apache License, Version 2.0 (the "License");
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# you may not use this file except in compliance with the License.
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# You may obtain a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS,
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# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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# See the License for the specific language governing permissions and
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# limitations under the License.
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# ==============================================================================
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"""Defines the 'VGGish' model used to generate AudioSet embedding features.
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The public AudioSet release (https://research.google.com/audioset/download.html)
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includes 128-D features extracted from the embedding layer of a VGG-like model
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that was trained on a large Google-internal YouTube dataset. Here we provide
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a TF-Slim definition of the same model, without any dependences on libraries
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internal to Google. We call it 'VGGish'.
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Note that we only define the model up to the embedding layer, which is the
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penultimate layer before the final classifier layer. We also provide various
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hyperparameter values (in vggish_params.py) that were used to train this model
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internally.
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For comparison, here is TF-Slim's VGG definition:
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https://github.com/tensorflow/models/blob/master/research/slim/nets/vgg.py
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"""
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import tensorflow.compat.v1 as tf
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tf.disable_v2_behavior()
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import tf_slim as slim
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import vggish_params as params
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def define_vggish_slim(training=False):
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"""Defines the VGGish TensorFlow model.
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All ops are created in the current default graph, under the scope 'vggish/'.
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The input is a placeholder named 'vggish/input_features' of type float32 and
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shape [batch_size, num_frames, num_bands] where batch_size is variable and
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num_frames and num_bands are constants, and [num_frames, num_bands] represents
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a log-mel-scale spectrogram patch covering num_bands frequency bands and
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num_frames time frames (where each frame step is usually 10ms). This is
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produced by computing the stabilized log(mel-spectrogram + params.LOG_OFFSET).
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The output is an op named 'vggish/embedding' which produces the activations of
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a 128-D embedding layer, which is usually the penultimate layer when used as
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part of a full model with a final classifier layer.
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Args:
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training: If true, all parameters are marked trainable.
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Returns:
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The op 'vggish/embeddings'.
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"""
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# Defaults:
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# - All weights are initialized to N(0, INIT_STDDEV).
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# - All biases are initialized to 0.
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# - All activations are ReLU.
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# - All convolutions are 3x3 with stride 1 and SAME padding.
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# - All max-pools are 2x2 with stride 2 and SAME padding.
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with slim.arg_scope([slim.conv2d, slim.fully_connected], weights_initializer=tf.truncated_normal_initializer(stddev=params.INIT_STDDEV), biases_initializer=tf.zeros_initializer(),activation_fn=tf.nn.relu,trainable=training), slim.arg_scope([slim.conv2d],kernel_size=[3, 3], stride=1, padding='SAME'), slim.arg_scope([slim.max_pool2d],kernel_size=[2, 2], stride=2, padding='SAME'), tf.variable_scope('vggish'):
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# Input: a batch of 2-D log-mel-spectrogram patches.
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features = tf.placeholder(
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tf.float32, shape=(None, params.NUM_FRAMES, params.NUM_BANDS),
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name='input_features')
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# Reshape to 4-D so that we can convolve a batch with conv2d().
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net = tf.reshape(features, [-1, params.NUM_FRAMES, params.NUM_BANDS, 1])
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# The VGG stack of alternating convolutions and max-pools.
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net = slim.conv2d(net, 64, scope='conv1')
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net = slim.max_pool2d(net, scope='pool1')
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net = slim.conv2d(net, 128, scope='conv2')
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net = slim.max_pool2d(net, scope='pool2')
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net = slim.repeat(net, 2, slim.conv2d, 256, scope='conv3')
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net = slim.max_pool2d(net, scope='pool3')
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net = slim.repeat(net, 2, slim.conv2d, 512, scope='conv4')
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net = slim.max_pool2d(net, scope='pool4')
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# Flatten before entering fully-connected layers
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net = slim.flatten(net)
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net = slim.repeat(net, 2, slim.fully_connected, 4096, scope='fc1')
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# The embedding layer.
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net = slim.fully_connected(net, params.EMBEDDING_SIZE, scope='fc2')
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return tf.identity(net, name='embedding')
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def load_vggish_slim_checkpoint(session, checkpoint_path):
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"""Loads a pre-trained VGGish-compatible checkpoint.
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This function can be used as an initialization function (referred to as
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init_fn in TensorFlow documentation) which is called in a Session after
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initializating all variables. When used as an init_fn, this will load
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a pre-trained checkpoint that is compatible with the VGGish model
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definition. Only variables defined by VGGish will be loaded.
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Args:
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session: an active TensorFlow session.
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checkpoint_path: path to a file containing a checkpoint that is
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compatible with the VGGish model definition.
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"""
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# Get the list of names of all VGGish variables that exist in
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# the checkpoint (i.e., all inference-mode VGGish variables).
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with tf.Graph().as_default():
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define_vggish_slim(training=False)
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vggish_var_names = [v.name for v in tf.global_variables()]
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# Get the list of all currently existing variables that match
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# the list of variable names we just computed.
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vggish_vars = [v for v in tf.global_variables() if v.name in vggish_var_names]
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# Use a Saver to restore just the variables selected above.
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saver = tf.train.Saver(vggish_vars, name='vggish_load_pretrained',
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write_version=1)
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saver.restore(session, checkpoint_path)
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