tf_agents.policies.EpsilonGreedyPolicy

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Returns epsilon-greedy samples of a given policy.

Inherits From: TFPolicy

View aliases

Main aliases

tf_agents.policies.epsilon_greedy_policy.EpsilonGreedyPolicy

tf_agents.policies.EpsilonGreedyPolicy(
    policy: tf_agents.policies.TFPolicy,
    epsilon: tf_agents.typing.types.FloatOrReturningFloat,
    exploration_mask: Optional[Sequence[int]] = None,
    info_fields_to_inherit_from_greedy: Sequence[Text] = (),
    name: Optional[Text] = None
)

Args
policy	A policy implementing the tf_policy.TFPolicy interface.
epsilon	The probability of taking the random action represented as a float scalar, a scalar Tensor of shape=(), or a callable that returns a float scalar or Tensor.
exploration_mask	A [0, 1] vector describing which actions should be in the set of exploratory actions.
info_fields_to_inherit_from_greedy	A list of policy info fields which should be copied over from the greedy action's info, even if the random action was taken.
name	The name of this policy.

Raises
ValueError	If epsilon is invalid.

Attributes
action_spec	Describes the TensorSpecs of the Tensors expected by step(action). action can be a single Tensor, or a nested dict, list or tuple of Tensors.
collect_data_spec	Describes the Tensors written when using this policy with an environment.
emit_log_probability	Whether this policy instance emits log probabilities or not.
info_spec	Describes the Tensors emitted as info by action and distribution. info can be an empty tuple, a single Tensor, or a nested dict, list or tuple of Tensors.
observation_and_action_constraint_splitter
policy_state_spec	Describes the Tensors expected by step(_, policy_state). policy_state can be an empty tuple, a single Tensor, or a nested dict, list or tuple of Tensors.
policy_step_spec	Describes the output of action().
time_step_spec	Describes the TimeStep tensors returned by step().
trajectory_spec	Describes the Tensors written when using this policy with an environment.
validate_args	Whether action & distribution validate input and output args.
wrapped_policy

Methods

action

View source

action(
    time_step: tf_agents.trajectories.TimeStep,
    policy_state: tf_agents.typing.types.NestedTensor = (),
    seed: Optional[types.Seed] = None
) -> tf_agents.trajectories.PolicyStep

Generates next action given the time_step and policy_state.

Args
time_step	A TimeStep tuple corresponding to time_step_spec().
policy_state	A Tensor, or a nested dict, list or tuple of Tensors representing the previous policy_state.
seed	Seed to use if action performs sampling (optional).

Returns
A PolicyStep named tuple containing: action: An action Tensor matching the action_spec. state: A policy state tensor to be fed into the next call to action. info: Optional side information such as action log probabilities.

Raises
RuntimeError	If subclass init didn't call super().init. ValueError or TypeError: If validate_args is True and inputs or outputs do not match time_step_spec, policy_state_spec, or policy_step_spec.

distribution

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distribution(
    time_step: tf_agents.trajectories.TimeStep,
    policy_state: tf_agents.typing.types.NestedTensor = ()
) -> tf_agents.trajectories.PolicyStep

Generates the distribution over next actions given the time_step.

Args
time_step	A TimeStep tuple corresponding to time_step_spec().
policy_state	A Tensor, or a nested dict, list or tuple of Tensors representing the previous policy_state.

Returns
A PolicyStep named tuple containing: action: A tf.distribution capturing the distribution of next actions. state: A policy state tensor for the next call to distribution. info: Optional side information such as action log probabilities.

Raises
ValueError or TypeError: If validate_args is True and inputs or outputs do not match time_step_spec, policy_state_spec, or policy_step_spec.

get_initial_state

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get_initial_state(
    batch_size: Optional[types.Int]
) -> tf_agents.typing.types.NestedTensor

Returns an initial state usable by the policy.

Args
batch_size	Tensor or constant: size of the batch dimension. Can be None in which case no dimensions gets added.

Returns
A nested object of type policy_state containing properly initialized Tensors.

update

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update(
    policy,
    tau: float = 1.0,
    tau_non_trainable: Optional[float] = None,
    sort_variables_by_name: bool = False
) -> tf.Operation

Update the current policy with another policy.

This would include copying the variables from the other policy.

Args
policy	Another policy it can update from.
tau	A float scalar in [0, 1]. When tau is 1.0 (the default), we do a hard update. This is used for trainable variables.
tau_non_trainable	A float scalar in [0, 1] for non_trainable variables. If None, will copy from tau.
sort_variables_by_name	A bool, when True would sort the variables by name before doing the update.

Returns
An TF op to do the update.