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A class for running TensorFlow operations.
tf.compat.v1.Session(
target='', graph=None, config=None
)
A Session
object encapsulates the environment in which Operation
objects are executed, and Tensor
objects are evaluated. For
example:
tf.compat.v1.disable_eager_execution() # need to disable eager in TF2.x
# Build a graph.
a = tf.constant(5.0)
b = tf.constant(6.0)
c = a * b
# Launch the graph in a session.
sess = tf.compat.v1.Session()
# Evaluate the tensor `c`.
print(sess.run(c)) # prints 30.0
A session may own resources, such as
tf.Variable
, tf.queue.QueueBase
,
and tf.compat.v1.ReaderBase
. It is important to release
these resources when they are no longer required. To do this, either
invoke the tf.Session.close
method on the session, or use
the session as a context manager. The following two examples are
equivalent:
# Using the `close()` method.
sess = tf.compat.v1.Session()
sess.run(...)
sess.close()
# Using the context manager.
with tf.compat.v1.Session() as sess:
sess.run(...)
The
ConfigProto
protocol buffer exposes various configuration options for a
session. For example, to create a session that uses soft constraints
for device placement, and log the resulting placement decisions,
create a session as follows:
# Launch the graph in a session that allows soft device placement and
# logs the placement decisions.
sess = tf.compat.v1.Session(config=tf.compat.v1.ConfigProto(
allow_soft_placement=True,
log_device_placement=True))
Args | |
---|---|
target
|
(Optional.) The execution engine to connect to. Defaults to using an in-process engine. See Distributed TensorFlow for more examples. |
graph
|
(Optional.) The Graph to be launched (described above).
|
config
|
(Optional.) A
ConfigProto
protocol buffer with configuration options for the session.
|
Attributes | |
---|---|
graph
|
The graph that was launched in this session. |
graph_def
|
A serializable version of the underlying TensorFlow graph. |
sess_str
|
The TensorFlow process to which this session will connect. |
Methods
as_default
as_default()
Returns a context manager that makes this object the default session.
Use with the with
keyword to specify that calls to
tf.Operation.run
or tf.Tensor.eval
should be executed in
this session.
c = tf.constant(..)
sess = tf.compat.v1.Session()
with sess.as_default():
assert tf.compat.v1.get_default_session() is sess
print(c.eval())
To get the current default session, use tf.compat.v1.get_default_session
.
c = tf.constant(...)
sess = tf.compat.v1.Session()
with sess.as_default():
print(c.eval())
# ...
with sess.as_default():
print(c.eval())
sess.close()
Alternatively, you can use with tf.compat.v1.Session():
to create a
session that is automatically closed on exiting the context,
including when an uncaught exception is raised.
Returns | |
---|---|
A context manager using this session as the default session. |
close
close()
Closes this session.
Calling this method frees all resources associated with the session.
Raises | |
---|---|
tf.errors.OpError
|
Or one of its subclasses if an error occurs while closing the TensorFlow session. |
list_devices
list_devices()
Lists available devices in this session.
devices = sess.list_devices()
for d in devices:
print(d.name)
Where:
Each element in the list has the following properties
name
: A string with the full name of the device. ex:/job:worker/replica:0/task:3/device:CPU:0
device_type
: The type of the device (e.g.CPU
,GPU
,TPU
.)memory_limit
: The maximum amount of memory available on the device. Note: depending on the device, it is possible the usable memory could be substantially less.
Raises | |
---|---|
tf.errors.OpError
|
If it encounters an error (e.g. session is in an invalid state, or network errors occur). |
Returns | |
---|---|
A list of devices in the session. |
make_callable
make_callable(
fetches, feed_list=None, accept_options=False
)
Returns a Python callable that runs a particular step.
The returned callable will take len(feed_list)
arguments whose types
must be compatible feed values for the respective elements of feed_list
.
For example, if element i
of feed_list
is a tf.Tensor
, the i
th
argument to the returned callable must be a numpy ndarray (or something
convertible to an ndarray) with matching element type and shape. See
tf.Session.run
for details of the allowable feed key and value types.
The returned callable will have the same return type as
tf.Session.run(fetches, ...)
. For example, if fetches
is a tf.Tensor
,
the callable will return a numpy ndarray; if fetches
is a tf.Operation
,
it will return None
.
Args | |
---|---|
fetches
|
A value or list of values to fetch. See tf.Session.run for
details of the allowable fetch types.
|
feed_list
|
(Optional.) A list of feed_dict keys. See tf.Session.run
for details of the allowable feed key types.
|
accept_options
|
(Optional.) If True , the returned Callable will be
able to accept tf.compat.v1.RunOptions and tf.compat.v1.RunMetadata
as optional keyword arguments options and run_metadata ,
respectively, with the same syntax and semantics as tf.Session.run ,
which is useful for certain use cases (profiling and debugging) but will
result in measurable slowdown of the Callable 's
performance. Default: False .
|
Returns | |
---|---|
A function that when called will execute the step defined by
feed_list and fetches in this session.
|
Raises | |
---|---|
TypeError
|
If fetches or feed_list cannot be interpreted
as arguments to tf.Session.run .
|
partial_run
partial_run(
handle, fetches, feed_dict=None
)
Continues the execution with more feeds and fetches.
This is EXPERIMENTAL and subject to change.
To use partial execution, a user first calls partial_run_setup()
and
then a sequence of partial_run()
. partial_run_setup
specifies the
list of feeds and fetches that will be used in the subsequent
partial_run
calls.
The optional feed_dict
argument allows the caller to override
the value of tensors in the graph. See run() for more information.
Below is a simple example:
a = array_ops.placeholder(dtypes.float32, shape=[])
b = array_ops.placeholder(dtypes.float32, shape=[])
c = array_ops.placeholder(dtypes.float32, shape=[])
r1 = math_ops.add(a, b)
r2 = math_ops.multiply(r1, c)
h = sess.partial_run_setup([r1, r2], [a, b, c])
res = sess.partial_run(h, r1, feed_dict={a: 1, b: 2})
res = sess.partial_run(h, r2, feed_dict={c: res})
Args | |
---|---|
handle
|
A handle for a sequence of partial runs. |
fetches
|
A single graph element, a list of graph elements, or a dictionary
whose values are graph elements or lists of graph elements (see
documentation for run ).
|
feed_dict
|
A dictionary that maps graph elements to values (described above). |
Returns | |
---|---|
Either a single value if fetches is a single graph element, or
a list of values if fetches is a list, or a dictionary with the
same keys as fetches if that is a dictionary
(see documentation for run ).
|
Raises | |
---|---|
tf.errors.OpError
|
Or one of its subclasses on error. |
partial_run_setup
partial_run_setup(
fetches, feeds=None
)
Sets up a graph with feeds and fetches for partial run.
This is EXPERIMENTAL and subject to change.
Note that contrary to run
, feeds
only specifies the graph elements.
The tensors will be supplied by the subsequent partial_run
calls.
Args | |
---|---|
fetches
|
A single graph element, or a list of graph elements. |
feeds
|
A single graph element, or a list of graph elements. |
Returns | |
---|---|
A handle for partial run. |
Raises | |
---|---|
RuntimeError
|
If this Session is in an invalid state (e.g. has been
closed).
|
TypeError
|
If fetches or feed_dict keys are of an inappropriate type.
|
tf.errors.OpError
|
Or one of its subclasses if a TensorFlow error happens. |
reset
@staticmethod
reset( target, containers=None, config=None )
Resets resource containers on target
, and close all connected sessions.
A resource container is distributed across all workers in the
same cluster as target
. When a resource container on target
is reset, resources associated with that container will be cleared.
In particular, all Variables in the container will become undefined:
they lose their values and shapes.
NOTE:
(i) reset() is currently only implemented for distributed sessions.
(ii) Any sessions on the master named by target
will be closed.
If no resource containers are provided, all containers are reset.
Args | |
---|---|
target
|
The execution engine to connect to. |
containers
|
A list of resource container name strings, or None if all of
all the containers are to be reset.
|
config
|
(Optional.) Protocol buffer with configuration options. |
Raises | |
---|---|
tf.errors.OpError
|
Or one of its subclasses if an error occurs while resetting containers. |
run
run(
fetches, feed_dict=None, options=None, run_metadata=None
)
Runs operations and evaluates tensors in fetches
.
This method runs one "step" of TensorFlow computation, by
running the necessary graph fragment to execute every Operation
and evaluate every Tensor
in fetches
, substituting the values in
feed_dict
for the corresponding input values.
The fetches
argument may be a single graph element, or an arbitrarily
nested list, tuple, namedtuple, dict, or OrderedDict containing graph
elements at its leaves. A graph element can be one of the following types:
- A
tf.Operation
. The corresponding fetched value will beNone
. - A
tf.Tensor
. The corresponding fetched value will be a numpy ndarray containing the value of that tensor. - A
tf.SparseTensor
. The corresponding fetched value will be atf.compat.v1.SparseTensorValue
containing the value of that sparse tensor. - A
get_tensor_handle
op. The corresponding fetched value will be a numpy ndarray containing the handle of that tensor. - A
string
which is the name of a tensor or operation in the graph.
The value returned by run()
has the same shape as the fetches
argument,
where the leaves are replaced by the corresponding values returned by
TensorFlow.
Example:
a = tf.constant([10, 20])
b = tf.constant([1.0, 2.0])
# 'fetches' can be a singleton
v = session.run(a)
# v is the numpy array [10, 20]
# 'fetches' can be a list.
v = session.run([a, b])
# v is a Python list with 2 numpy arrays: the 1-D array [10, 20] and the
# 1-D array [1.0, 2.0]
# 'fetches' can be arbitrary lists, tuples, namedtuple, dicts:
MyData = collections.namedtuple('MyData', ['a', 'b'])
v = session.run({'k1': MyData(a, b), 'k2': [b, a]})
# v is a dict with
# v['k1'] is a MyData namedtuple with 'a' (the numpy array [10, 20]) and
# 'b' (the numpy array [1.0, 2.0])
# v['k2'] is a list with the numpy array [1.0, 2.0] and the numpy array
# [10, 20].
The optional feed_dict
argument allows the caller to override
the value of tensors in the graph. Each key in feed_dict
can be
one of the following types:
- If the key is a
tf.Tensor
, the value may be a Python scalar, string, list, or numpy ndarray that can be converted to the samedtype
as that tensor. Additionally, if the key is atf.compat.v1.placeholder
, the shape of the value will be checked for compatibility with the placeholder. - If the key is a
tf.SparseTensor
, the value should be atf.compat.v1.SparseTensorValue
. - If the key is a nested tuple of
Tensor
s orSparseTensor
s, the value should be a nested tuple with the same structure that maps to their corresponding values as above.
Each value in feed_dict
must be convertible to a numpy array of the dtype
of the corresponding key.
The optional options
argument expects a [RunOptions
] proto. The options
allow controlling the behavior of this particular step (e.g. turning tracing
on).
The optional run_metadata
argument expects a [RunMetadata
] proto. When
appropriate, the non-Tensor output of this step will be collected there. For
example, when users turn on tracing in options
, the profiled info will be
collected into this argument and passed back.
Args | |
---|---|
fetches
|
A single graph element, a list of graph elements, or a dictionary whose values are graph elements or lists of graph elements (described above). |
feed_dict
|
A dictionary that maps graph elements to values (described above). |
options
|
A [RunOptions ] protocol buffer
|
run_metadata
|
A [RunMetadata ] protocol buffer
|
Returns | |
---|---|
Either a single value if fetches is a single graph element, or
a list of values if fetches is a list, or a dictionary with the
same keys as fetches if that is a dictionary (described above).
Order in which fetches operations are evaluated inside the call
is undefined.
|
Raises | |
---|---|
RuntimeError
|
If this Session is in an invalid state (e.g. has been
closed).
|
TypeError
|
If fetches or feed_dict keys are of an inappropriate type.
|
ValueError
|
If fetches or feed_dict keys are invalid or refer to a
Tensor that doesn't exist.
|
__enter__
__enter__()
__exit__
__exit__(
exec_type, exec_value, exec_tb
)