tf.contrib.graph_editor.SubGraphView

A subgraph view on an existing tf.Graph.

An instance of this class is a subgraph view on an existing tf.Graph. "subgraph" means that it can represent part of the whole tf.Graph. "view" means that it only provides a passive observation and do not to act on the tf.Graph. Note that in this documentation, the term "subgraph" is often used as substitute to "subgraph view".

A subgraph contains:

  • a list of input tensors, accessible via the inputs property.
  • a list of output tensors, accessible via the outputs property.
  • and the operations in between, accessible via the "ops" property.

An subgraph can be seen as a function F(i0, i1, ...) -> o0, o1, ... It is a function which takes as input some input tensors and returns as output some output tensors. The computation that the function performs is encoded in the operations of the subgraph.

The tensors (input or output) can be of two kinds:

  • connected: a connected tensor connects to at least one operation contained in the subgraph. One example is a subgraph representing a single operation and its inputs and outputs: all the input and output tensors of the op are "connected".
  • passthrough: a passthrough tensor does not connect to any operation contained in the subgraph. One example is a subgraph representing a single tensor: this tensor is passthrough. By default a passthrough tensor is present both in the input and output tensors of the subgraph. It can however be remapped to only appear as an input (or output) only.

The input and output tensors can be remapped. For instance, some input tensor can be omitted. For instance, a subgraph representing an operation with two inputs can be remapped to only take one input. Note that this does not change at all the underlying tf.Graph (remember, it is a view). It means that the other input is being ignored, or is being treated as "given". The analogy with functions can be extended like this: F(x,y) is the original function. Remapping the inputs from [x, y] to just [x] means that the subgraph now represent the function F_y(x) (y is "given").

The output tensors can also be remapped. For instance, some output tensor can be omitted. Other output tensor can be duplicated as well. As mentioned before, this does not change at all the underlying tf.Graph. The analogy with functions can be extended like this: F(...)->x,y is the original function. Remapping the outputs from [x, y] to just [y,y] means that the subgraph now represent the function M(F(...)) where M is the function M(a,b)->b,b.

It is useful to describe three other kind of tensors:

  • internal: an internal tensor is a tensor connecting operations contained in the subgraph. One example in the subgraph representing the two operations A and B connected sequentially: -> A -> B ->. The middle arrow is an internal tensor.
  • actual input: an input tensor of the subgraph, regardless of whether it is listed in "inputs" or not (masked-out).
  • actual output: an output tensor of the subgraph, regardless of whether it is listed in "outputs" or not (masked-out).
  • hidden input: an actual input which has been masked-out using an input remapping. In other word, a hidden input is a non-internal tensor not listed as a input tensor and one of whose consumers belongs to the subgraph.
  • hidden output: a actual output which has been masked-out using an output remapping. In other word, a hidden output is a non-internal tensor not listed as an output and one of whose generating operations belongs to the subgraph.

Here are some useful guarantees about an instance of a SubGraphView:

  • the input (or output) tensors are not internal.
  • the input (or output) tensors are either "connected" or "passthrough".
  • the passthrough tensors are not connected to any of the operation of the subgraph.

Note that there is no guarantee that an operation in a subgraph contributes at all to its inputs or outputs. For instance, remapping both the inputs and outputs to empty lists will produce a subgraph which still contains all the original operations. However, the remove_unused_ops function can be used to make a new subgraph view whose operations are connected to at least one of the input or output tensors.

An instance of this class is meant to be a lightweight object which is not modified in-place by the user. Rather, the user can create new modified instances of a given subgraph. In that sense, the class SubGraphView is meant to be used like an immutable python object.

A common problem when using views is that they can get out-of-sync with the data they observe (in this case, a tf.Graph). This is up to the user to ensure that this doesn't happen. To keep on the safe side, it is recommended that the life time of subgraph views are kept very short. One way to achieve this is to use subgraphs within a "with make_sgv(...) as sgv:" Python context.

To alleviate the out-of-sync problem, some functions are granted the right to modified subgraph in place. This is typically the case of graph manipulation functions which, given some subgraphs as arguments, can modify the underlying tf.Graph. Since this modification is likely to render the subgraph view invalid, those functions can modify the argument in place to reflect the change. For instance, calling the function swap_inputs(svg0, svg1) will modify svg0 and svg1 in place to reflect the fact that their inputs have now being swapped.

Args
inside_ops an object convertible to a list of tf.Operation. This list defines all the operations in the subgraph.
passthrough_ts an object convertible to a list of tf.Tensor. This list define all the "passthrough" tensors. A passthrough tensor is a tensor which goes directly from the input of the subgraph to it output, without any intermediate operations. All the non passthrough tensors are silently ignored.
Raises
TypeError if inside_ops cannot be converted to a list of tf.Operation or if passthrough_ts cannot be converted to a list of tf.Tensor.
Attributes
connected_inputs The connected input tensors of this subgraph view.
connected_outputs The connected output tensors of this subgraph view.
graph The underlying tf.Graph.
inputs The input tensors of this subgraph view.
ops The operations in this subgraph view.
outputs The output tensors of this subgraph view.
passthroughs The passthrough tensors, going straight from input to output.

Methods

consumers

View source

Return a Python set of all the consumers of this subgraph view.

A consumer of a subgraph view is a tf.Operation which is a consumer of one of the output tensors and is not in the subgraph.

Returns
A list of tf.Operation which are the consumers of this subgraph view.

copy

View source

Return a copy of itself.

Note that this class is a "view", copying it only create another view and does not copy the underlying part of the tf.Graph.

Returns
A new instance identical to the original one.

find_op_by_name

View source

Return the op named op_name.

Args
op_name the name to search for
Returns
The op named op_name.
Raises
ValueError if the op_name could not be found.
AssertionError if the name was found multiple time.

input_index

View source

Find the input index corresponding to the given input tensor t.

Args
t the input tensor of this subgraph view.
Returns
The index in the self.inputs list.
Raises
Error if t in not an input tensor.

is_passthrough

View source

Check whether a tensor is passthrough.

op

View source

Get an op by its index.

output_index

View source

Find the output index corresponding to given output tensor t.

Args
t the output tensor of this subgraph view.
Returns
The index in the self.outputs list.
Raises
Error if t in not an output tensor.

remap

View source

Remap the inputs and outputs of the subgraph.

Note that this is only modifying the view: the underlying tf.Graph is not affected.

Args
new_input_indices an iterable of integers or tf.Tensors representing a mapping between the old inputs and the new ones. Integers must be positive and smaller than the number of old inputs. tf.Tensors must belong to the old list of inputs. This mapping can be under-complete and must be without repetitions.
new_output_indices an iterable of integers or tf.Tensors representing a mapping between the old outputs and the new ones. Integers must be positive and smaller than the number of old outputs. tf.Tensors must belong to the old list of outputs. This mapping can be under-complete and can have repetitions.
Returns
A new modified instance of the original subgraph view with remapped inputs and outputs.

remap_default

View source

Remap the inputs and/or outputs to the default mapping.

Args
remove_input_map if True the input map is reset to the default one.
remove_output_map if True the output map is reset to the default one.
Returns
A new modified instance of the original subgraph view with its input and/or output mapping reset to the default one.

remap_inputs

View source

Remap the inputs of the subgraph.

If the inputs of the original subgraph are [t0, t1, t2], remapping to [2,0] will create a new instance whose inputs is [t2, t0].

Note that this is only modifying the view: the underlying tf.Graph is not affected.

Args
new_input_indices an iterable of integers or tf.Tensors representing a mapping between the old inputs and the new ones. Integers must be positive and smaller than the number of old inputs. tf.Tensors must belong to the old list of inputs. This mapping can be under-complete and must be without repetitions.
Returns
A new modified instance of the original subgraph view with remapped inputs.

remap_outputs

View source

Remap the output of the subgraph.

If the output of the original subgraph are [t0, t1, t2], remapping to [1,1,0] will create a new instance whose outputs is [t1, t1, t0].

Note that this is only modifying the view: the underlying tf.Graph is not affected.

Args
new_output_indices an iterable of integers or tf.Tensors representing a mapping between the old outputs and the new ones. Integers must be positive and smaller than the number of old outputs. tf.Tensors must belong to the old list of outputs. This mapping can be under-complete and can have repetitions.
Returns
A new modified instance of the original subgraph view with remapped outputs.

remap_outputs_make_unique

View source

Remap the outputs so that all the tensors appears only once.

remap_outputs_to_consumers

View source

Remap the outputs to match the number of consumers.

remove_unused_ops

View source

Remove unused ops.

Args
control_inputs if True, control inputs are used to detect used ops.
Returns
A new subgraph view which only contains used operations.

__bool__

View source

Allows for implicit boolean conversion.

__enter__

View source

Allow Python context to minimize the life time of a subgraph view.

A subgraph view is meant to be a lightweight and transient object. A short lifetime will alleviate the "out-of-sync" issue mentioned earlier. For that reason, a SubGraphView instance can be used within a Python context. For example:

from tensorflow.contrib import graph_editor as ge with ge.make_sgv(...) as sgv: print(sgv)

Returns
Itself.

__exit__

View source

__nonzero__

View source

Allows for implicit boolean conversion.

© 2020 The TensorFlow Authors. All rights reserved.
Licensed under the Creative Commons Attribution License 3.0.
Code samples licensed under the Apache 2.0 License.
https://www.tensorflow.org/versions/r1.15/api_docs/python/tf/contrib/graph_editor/SubGraphView