tf.compat.v1.make_template

Given an arbitrary function, wrap it so that it does variable sharing.

Migrate to TF2

tf.compat.v1.make_template is a legacy API that is only compatible with eager execution enabled and tf.function if you combine it with tf.compat.v1.keras.utils.track_tf1_style_variables. See the model mapping migration guide section on make_template for more info:

https://www.tensorflow.org/guide/migrate/model_mapping#using_tfcompatv1make_template_in_the_decorated_method

Even if you use legacy apis for variable_scope-based variable reuse, we recommend using tf.compat.v1.keras.utils.track_tf1_style_variables directly and not using tf.compat.v1.make_template, as it interoperates with eager execution in a simpler and more predictable fashion than make_template.

The TF2 API approach would be tracking your variables using tf.Modules or Keras layers and models rather than relying on make_template.

Description

This wraps func_ in a Template and partially evaluates it. Templates are functions that create variables the first time they are called and reuse them thereafter. In order for func_ to be compatible with a Template it must have the following properties:

  • The function should create all trainable variables and any variables that should be reused by calling tf.compat.v1.get_variable. If a trainable variable is created using tf.Variable, then a ValueError will be thrown. Variables that are intended to be locals can be created by specifying tf.Variable(..., trainable=false).
  • The function may use variable scopes and other templates internally to create and reuse variables, but it shouldn't use tf.compat.v1.global_variables to capture variables that are defined outside of the scope of the function.
  • Internal scopes and variable names should not depend on any arguments that are not supplied to make_template. In general you will get a ValueError telling you that you are trying to reuse a variable that doesn't exist if you make a mistake.

In the following example, both z and w will be scaled by the same y. It is important to note that if we didn't assign scalar_name and used a different name for z and w that a ValueError would be thrown because it couldn't reuse the variable.

def my_op(x, scalar_name):
  var1 = tf.compat.v1.get_variable(scalar_name,
                         shape=[],
                         initializer=tf.compat.v1.constant_initializer(1))
  return x * var1

scale_by_y = tf.compat.v1.make_template('scale_by_y', my_op, scalar_name='y')

z = scale_by_y(input1)
w = scale_by_y(input2)

As a safe-guard, the returned function will raise a ValueError after the first call if trainable variables are created by calling tf.Variable.

If all of these are true, then 2 properties are enforced by the template:

  1. Calling the same template multiple times will share all non-local variables.
  2. Two different templates are guaranteed to be unique, unless you reenter the same variable scope as the initial definition of a template and redefine it. An examples of this exception:
def my_op(x, scalar_name):
  var1 = tf.compat.v1.get_variable(scalar_name,
                         shape=[],
                         initializer=tf.compat.v1.constant_initializer(1))
  return x * var1

with tf.compat.v1.variable_scope('scope') as vs:
  scale_by_y = tf.compat.v1.make_template('scale_by_y', my_op,
  scalar_name='y')
  z = scale_by_y(input1)
  w = scale_by_y(input2)

# Creates a template that reuses the variables above.
with tf.compat.v1.variable_scope(vs, reuse=True):
  scale_by_y2 = tf.compat.v1.make_template('scale_by_y', my_op,
  scalar_name='y')
  z2 = scale_by_y2(input1)
  w2 = scale_by_y2(input2)

Depending on the value of create_scope_now_, the full variable scope may be captured either at the time of first call or at the time of construction. If this option is set to True, then all Tensors created by repeated calls to the template will have an extra trailing _N+1 to their name, as the first time the scope is entered in the Template constructor no Tensors are created.

name_ A name for the scope created by this template. If necessary, the name will be made unique by appending _N to the name.
func_ The function to wrap.
create_scope_now_ Boolean controlling whether the scope should be created when the template is constructed or when the template is called. Default is False, meaning the scope is created when the template is called.
unique_name_ When used, it overrides name_ and is not made unique. If a template of the same scope/unique_name already exists and reuse is false, an error is raised. Defaults to None.
custom_getter_ Optional custom getter for variables used in func_. See the tf.compat.v1.get_variable custom_getter documentation for more information.
**kwargs Keyword arguments to apply to func_.

A function to encapsulate a set of variables which should be created once and reused. An enclosing scope will be created either when make_template is called or when the result is called, depending on the value of create_scope_now_. Regardless of the value, the first time the template is called it will enter the scope with no reuse, and call func_ to create variables, which are guaranteed to be unique. All subsequent calls will re-enter the scope and reuse those variables.

ValueError if name_ is None.