6.3.2 Client
Contents
Running Graphs
- Session management
- Error classes
class tf.OpError
class tf.errors.CancelledError
class tf.errors.UnknownError
class tf.errors.InvalidArgumentError
class tf.errors.DeadlineExceededError
class tf.errors.NotFoundError
class tf.errors.AlreadyExistsError
class tf.errors.PermissionDeniedError
class tf.errors.UnauthenticatedError
class tf.errors.ResourceExhaustedError
class tf.errors.FailedPreconditionError
class tf.errors.AbortedError
class tf.errors.OutOfRangeError
class tf.errors.UnimplementedError
class tf.errors.InternalError
class tf.errors.UnavailableError
class tf.errors.DataLossError
This library contains classes for launching graphs and executing operations.
The basic usage guide has examples of how a graph is launched in a tf.Session
.
Session management
class tf.Session
A class for running TensorFlow operations.
A Session
object encapsulates the environment in which Operation
objects are executed, and Tensor
objects are evaluated. For example:
# Build a graph.
a = tf.constant(5.0)
b = tf.constant(6.0)
c = a * b
# Launch the graph in a session.
sess = tf.Session()
# Evaluate the tensor `c`.
print sess.run(c)
A session may own resources, such as variables, queues, and readers. It is important to release these resources when they are no longer required. To do this, either invoke the 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.Session()
sess.run(...)
sess.close()
# Using the context manager.
with tf.Session() as sess:
sess.run(...)
The [ConfigProto
] (https://tensorflow.googlesource.com/tensorflow/+/master/tensorflow/core/framework/config.proto) 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.Session(config=tf.ConfigProto(allow_soft_placement=True,
log_device_placement=True))
tf.Session.__init__(target='', graph=None, config=None)
Creates a new TensorFlow session.
If no graph
argument is specified when constructing the session, the default graph will be launched in the session. If you are using more than one graph (created with tf.Graph()
in the same process, you will have to use different sessions for each graph, but each graph can be used in multiple sessions. In this case, it is often clearer to pass the graph to be launched explicitly to the session constructor.
Args:
target
: (Optional.) The execution engine to connect to. Defaults to using an in-process engine. At present, no value other than the empty string is supported.graph
: (Optional.) TheGraph
to be launched (described above).config
: (Optional.) AConfigProto
protocol buffer with configuration options for the session.
tf.Session.run(fetches, feed_dict=None)
Runs the operations and evaluates the 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 list of graph elements or a single graph element, and these determine the return value of this method. A graph element can be one of the following types:
- If the ith element of
fetches
is anOperation
, the ith return value will beNone
. - If the ith element of
fetches
is aTensor
, the ith return value will be a numpy ndarray containing the value of that tensor. - If the ith element of
fetches
is aSparseTensor
, the ith return value will be aSparseTensorValue
containing the value of that sparse tensor.
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
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 a placeholder, the shape of the value will be checked for compatibility with the placeholder. - If the key is a
SparseTensor
, the value should be aSparseTensorValue
.
Args:
fetches
: A single graph element, or a list of graph elements (described above).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 (described above).
Raises:
RuntimeError
: If thisSession
is in an invalid state (e.g. has been closed).TypeError
: Iffetches
orfeed_dict
keys are of an inappropriate type.ValueError
: Iffetches
orfeed_dict
keys are invalid or refer to aTensor
that doesn't exist.
tf.Session.close()
Closes this session.
Calling this method frees all resources associated with the session.
Raises:
RuntimeError
: If an error occurs while closing the session.
tf.Session.graph
The graph that was launched in this session.
tf.Session.as_default()
Returns a context manager that makes this object the default session.
Use with the with
keyword to specify that calls to Operation.run()
or Tensor.run()
should be executed in this session.
c = tf.constant(..)
sess = tf.Session()
with sess.as_default():
assert tf.get_default_session() is sess
print c.eval()
To get the current default session, use tf.get_default_session()
.
N.B. The as_default
context manager does not close the session when you exit the context, and you must close the session explicitly.
c = tf.constant(...)
sess = tf.Session()
with sess.as_default():
print c.eval()
# ...
with sess.as_default():
print c.eval()
sess.close()
Alternatively, you can use with tf.Session():
to create a session that is automatically closed on exiting the context, including when an uncaught exception is raised.
N.B. The default graph is a property of the current thread. If you create a new thread, and wish to use the default session in that thread, you must explicitly add a with sess.as_default():
in that thread's function.
Returns:
A context manager using this session as the default session.
class tf.InteractiveSession
A TensorFlow Session
for use in interactive contexts, such as a shell.
The only difference with a regular Session
is that an InteractiveSession
installs itself as the default session on construction. The methods Tensor.eval()
and Operation.run()
will use that session to run ops.
This is convenient in interactive shells and IPython notebooks, as it avoids having to pass an explicit Session
object to run ops.
For example:
sess = tf.InteractiveSession()
a = tf.constant(5.0)
b = tf.constant(6.0)
c = a * b
# We can just use 'c.eval()' without passing 'sess'
print c.eval()
sess.close()
Note that a regular session installs itself as the default session when it is created in a with
statement. The common usage in non-interactive programs is to follow that pattern:
a = tf.constant(5.0)
b = tf.constant(6.0)
c = a * b
with tf.Session():
# We can also use 'c.eval()' here.
print c.eval()
tf.InteractiveSession.__init__(target='', graph=None)
Creates a new interactive TensorFlow session.
If no graph
argument is specified when constructing the session, the default graph will be launched in the session. If you are using more than one graph (created with tf.Graph()
in the same process, you will have to use different sessions for each graph, but each graph can be used in multiple sessions. In this case, it is often clearer to pass the graph to be launched explicitly to the session constructor.
Args:
target
: (Optional.) The execution engine to connect to. Defaults to using an in-process engine. At present, no value other than the empty string is supported.graph
: (Optional.) TheGraph
to be launched (described above).
tf.InteractiveSession.close()
Closes an InteractiveSession
.
tf.get_default_session()
Returns the default session for the current thread.
The returned Session
will be the innermost session on which a Session
or Session.as_default()
context has been entered.
N.B. The default session is a property of the current thread. If you create a new thread, and wish to use the default session in that thread, you must explicitly add a with sess.as_default():
in that thread's function.
Returns:
The default Session
being used in the current thread.
Error classes
class tf.OpError
A generic error that is raised when TensorFlow execution fails.
Whenever possible, the session will raise a more specific subclass of OpError
from the tf.errors
module.
tf.OpError.op
The operation that failed, if known.
N.B. If the failed op was synthesized at runtime, e.g. a Send
or Recv
op, there will be no corresponding Operation
object. In that case, this will return None
, and you should instead use the OpError.node_def
to discover information about the op.
Returns:
The Operation
that failed, or None.
tf.OpError.node_def
The NodeDef
proto representing the op that failed.
Other Methods
tf.OpError.__init__(node_def, op, message, error_code)
Creates a new OpError indicating that a particular op failed.
Args:
node_def
: The graph_pb2.NodeDef proto representing the op that failed.op
: The ops.Operation that failed, if known; otherwise None.message
: The message string describing the failure.error_code
: The error_codes_pb2.Code describing the error.
tf.OpError.error_code
The integer error code that describes the error.
tf.OpError.message
The error message that describes the error.
class tf.errors.CancelledError
Raised when an operation or step is cancelled.
For example, a long-running operation (e.g. queue.enqueue()
may be cancelled by running another operation (e.g. queue.close(cancel_pending_enqueues=True)
, or by closing the session. A step that is running such a long-running operation will fail by raising CancelledError
.
tf.errors.CancelledError.__init__(node_def, op, message)
Creates a CancelledError
.
class tf.errors.UnknownError
Unknown error.
An example of where this error may be returned is if a Status value received from another address space belongs to an error-space that is not known to this address space. Also errors raised by APIs that do not return enough error information may be converted to this error.
tf.errors.UnknownError.__init__(node_def, op, message, error_code=2)
Creates an UnknownError
.
class tf.errors.InvalidArgumentError
Raised when an operation receives an invalid argument.
This may occur, for example, if an operation is receives an input tensor that has an invalid value or shape. For example, the tf.matmul()
op will raise this error if it receives an input that is not a matrix, and the tf.reshape()
op will raise this error if the new shape does not match the number of elements in the input tensor.
tf.errors.InvalidArgumentError.__init__(node_def, op, message)
Creates an InvalidArgumentError
.
class tf.errors.DeadlineExceededError
Raised when a deadline expires before an operation could complete.
This exception is not currently used.
tf.errors.DeadlineExceededError.__init__(node_def, op, message)
Creates a DeadlineExceededError
.
class tf.errors.NotFoundError
Raised when a requested entity (e.g., a file or directory) was not found.
For example, running the tf.WholeFileReader.read()
operation could raise NotFoundError
if it receives the name of a file that does not exist.
tf.errors.NotFoundError.__init__(node_def, op, message)
Creates a NotFoundError
.
class tf.errors.AlreadyExistsError
Raised when an entity that we attempted to create already exists.
For example, running an operation that saves a file (e.g. tf.train.Saver.save()
) could potentially raise this exception if an explicit filename for an existing file was passed.
tf.errors.AlreadyExistsError.__init__(node_def, op, message)
Creates an AlreadyExistsError
.
class tf.errors.PermissionDeniedError
Raised when the caller does not have permission to run an operation.
For example, running the tf.WholeFileReader.read()
operation could raise PermissionDeniedError
if it receives the name of a file for which the user does not have the read file permission.
tf.errors.PermissionDeniedError.__init__(node_def, op, message)
Creates a PermissionDeniedError
.
class tf.errors.UnauthenticatedError
The request does not have valid authentication credentials.
This exception is not currently used.
tf.errors.UnauthenticatedError.__init__(node_def, op, message)
Creates an UnauthenticatedError
.
class tf.errors.ResourceExhaustedError
Some resource has been exhausted.
For example, this error might be raised if a per-user quota is exhausted, or perhaps the entire file system is out of space.
tf.errors.ResourceExhaustedError.__init__(node_def, op, message)
Creates a ResourceExhaustedError
.
class tf.errors.FailedPreconditionError
Operation was rejected because the system is not in a state to execute it.
This exception is most commonly raised when running an operation that reads a tf.Variable
before it has been initialized.
tf.errors.FailedPreconditionError.__init__(node_def, op, message)
Creates a FailedPreconditionError
.
class tf.errors.AbortedError
The operation was aborted, typically due to a concurrent action.
For example, running a queue.enqueue()
operation may raise AbortedError
if a queue.close()
operation previously ran.
tf.errors.AbortedError.__init__(node_def, op, message)
Creates an AbortedError
.
class tf.errors.OutOfRangeError
Raised when an operation executed past the valid range.
This exception is raised in "end-of-file" conditions, such as when a queue.dequeue()
operation is blocked on an empty queue, and a queue.close()
operation executes.
tf.errors.OutOfRangeError.__init__(node_def, op, message)
Creates an OutOfRangeError
.
class tf.errors.UnimplementedError
Raised when an operation has not been implemented.
Some operations may raise this error when passed otherwise-valid arguments that it does not currently support. For example, running the tf.nn.max_pool()
operation would raise this error if pooling was requested on the batch dimension, because this is not yet supported.
tf.errors.UnimplementedError.__init__(node_def, op, message)
Creates an UnimplementedError
.
class tf.errors.InternalError
Raised when the system experiences an internal error.
This exception is raised when some invariant expected by the runtime has been broken. Catching this exception is not recommended.
tf.errors.InternalError.__init__(node_def, op, message)
Creates an InternalError
.
class tf.errors.UnavailableError
Raised when the runtime is currently unavailable.
This exception is not currently used.
tf.errors.UnavailableError.__init__(node_def, op, message)
Creates an UnavailableError
.
class tf.errors.DataLossError
Raised when unrecoverable data loss or corruption is encountered.
For example, this may be raised by running a tf.WholeFileReader.read()
operation, if the file is truncated while it is being read.
tf.errors.DataLossError.__init__(node_def, op, message)
Creates a DataLossError
.