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Comparative-Analysis-of-Speech-Synthesis-Models / TensorFlowTTS /tensorflow_tts /optimizers /adamweightdecay.py

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	# -- coding: utf-8 --
	# Copyright 2019 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.
	"""AdamW for training self-attention."""


	import re

	import tensorflow as tf


	class WarmUp(tf.keras.optimizers.schedules.LearningRateSchedule):
	"""Applys a warmup schedule on a given learning rate decay schedule."""

	def __init__(
	self,
	initial_learning_rate,
	decay_schedule_fn,
	warmup_steps,
	power=1.0,
	name=None,
	):
	super(WarmUp, self).__init__()
	self.initial_learning_rate = initial_learning_rate
	self.warmup_steps = warmup_steps
	self.power = power
	self.decay_schedule_fn = decay_schedule_fn
	self.name = name

	def __call__(self, step):
	with tf.name_scope(self.name or "WarmUp") as name:
	# Implements polynomial warmup. i.e., if global_step < warmup_steps, the
	# learning rate will be `global_step/num_warmup_steps * init_lr`.
	global_step_float = tf.cast(step, tf.float32)
	warmup_steps_float = tf.cast(self.warmup_steps, tf.float32)
	warmup_percent_done = global_step_float / warmup_steps_float
	warmup_learning_rate = self.initial_learning_rate * tf.math.pow(
	warmup_percent_done, self.power
	)
	return tf.cond(
	global_step_float < warmup_steps_float,
	lambda: warmup_learning_rate,
	lambda: self.decay_schedule_fn(step),
	name=name,
	)

	def get_config(self):
	return {
	"initial_learning_rate": self.initial_learning_rate,
	"decay_schedule_fn": self.decay_schedule_fn,
	"warmup_steps": self.warmup_steps,
	"power": self.power,
	"name": self.name,
	}


	class AdamWeightDecay(tf.keras.optimizers.Adam):
	"""Adam enables L2 weight decay and clip_by_global_norm on gradients.
	Just adding the square of the weights to the loss function is not the
	correct way of using L2 regularization/weight decay with Adam, since that will
	interact with the m and v parameters in strange ways.

	Instead we want ot decay the weights in a manner that doesn't interact with
	the m/v parameters. This is equivalent to adding the square of the weights to
	the loss with plain (non-momentum) SGD.
	"""

	def __init__(
	self,
	learning_rate=0.001,
	beta_1=0.9,
	beta_2=0.999,
	epsilon=1e-7,
	amsgrad=False,
	weight_decay_rate=0.0,
	include_in_weight_decay=None,
	exclude_from_weight_decay=None,
	name="AdamWeightDecay",
	**kwargs
	):
	super(AdamWeightDecay, self).__init__(
	learning_rate, beta_1, beta_2, epsilon, amsgrad, name, **kwargs
	)
	self.weight_decay_rate = weight_decay_rate
	self._include_in_weight_decay = include_in_weight_decay
	self._exclude_from_weight_decay = exclude_from_weight_decay

	@classmethod
	def from_config(cls, config):
	"""Creates an optimizer from its config with WarmUp custom object."""
	custom_objects = {"WarmUp": WarmUp}
	return super(AdamWeightDecay, cls).from_config(
	config, custom_objects=custom_objects
	)

	def _prepare_local(self, var_device, var_dtype, apply_state):
	super(AdamWeightDecay, self)._prepare_local(var_device, var_dtype, apply_state)
	apply_state["weight_decay_rate"] = tf.constant(
	self.weight_decay_rate, name="adam_weight_decay_rate"
	)

	def _decay_weights_op(self, var, learning_rate, apply_state):
	do_decay = self._do_use_weight_decay(var.name)
	if do_decay:
	return var.assign_sub(
	learning_rate * var * apply_state["weight_decay_rate"],
	use_locking=self._use_locking,
	)
	return tf.no_op()

	def apply_gradients(self, grads_and_vars, clip_norm=0.5, **kwargs):
	grads, tvars = list(zip(*grads_and_vars))
	(grads, _) = tf.clip_by_global_norm(grads, clip_norm=clip_norm)
	return super(AdamWeightDecay, self).apply_gradients(zip(grads, tvars), **kwargs)

	def _get_lr(self, var_device, var_dtype, apply_state):
	"""Retrieves the learning rate with the given state."""
	if apply_state is None:
	return self._decayed_lr_t[var_dtype], {}

	apply_state = apply_state or {}
	coefficients = apply_state.get((var_device, var_dtype))
	if coefficients is None:
	coefficients = self._fallback_apply_state(var_device, var_dtype)
	apply_state[(var_device, var_dtype)] = coefficients

	return coefficients["lr_t"], dict(apply_state=apply_state)

	def _resource_apply_dense(self, grad, var, apply_state=None):
	lr_t, kwargs = self._get_lr(var.device, var.dtype.base_dtype, apply_state)
	decay = self._decay_weights_op(var, lr_t, apply_state)
	with tf.control_dependencies([decay]):
	return super(AdamWeightDecay, self)._resource_apply_dense(
	grad, var, **kwargs
	)

	def _resource_apply_sparse(self, grad, var, indices, apply_state=None):
	lr_t, kwargs = self._get_lr(var.device, var.dtype.base_dtype, apply_state)
	decay = self._decay_weights_op(var, lr_t, apply_state)
	with tf.control_dependencies([decay]):
	return super(AdamWeightDecay, self)._resource_apply_sparse(
	grad, var, indices, **kwargs
	)

	def get_config(self):
	config = super(AdamWeightDecay, self).get_config()
	config.update(
	{"weight_decay_rate": self.weight_decay_rate,}
	)
	return config

	def _do_use_weight_decay(self, param_name):
	"""Whether to use L2 weight decay for `param_name`."""
	if self.weight_decay_rate == 0:
	return False

	if self._include_in_weight_decay:
	for r in self._include_in_weight_decay:
	if re.search(r, param_name) is not None:
	return True

	if self._exclude_from_weight_decay:
	for r in self._exclude_from_weight_decay:
	if re.search(r, param_name) is not None:
	return False
	return True