A Ranking policy that penalizes scores based on cosine distance.
Inherits From: RankingPolicy
, TFPolicy
tf_agents.bandits.policies.ranking_policy.PenalizeCosineDistanceRankingPolicy(
num_items: int,
num_slots: int,
time_step_spec: tf_agents.typing.types.TimeStep
,
network: tf_agents.typing.types.Network
,
penalty_mixture_coefficient: float = 1.0,
logits_temperature: float = 1.0,
name: Optional[Text] = None
)
Note that this is a rough first implementation, and thus it is very slow and
also misses tunable parameters such as weights of the penalties vs raw scores.
Args |
num_items
|
The number of items the policy can choose from, to be slotted.
|
num_slots
|
The number of recommendation slots presented to the user, i.e.,
chosen by the policy.
|
time_step_spec
|
The time step spec.
|
network
|
The network that estimates scores of items, given global and item
features.
|
item_sampler
|
A distibution that takes scores and item features, and
samples an ordered list of num_slots items. Similarity penalization
can be implemented within this sampler.
|
penalty_mixture_coefficient
|
A parameter responsible for the balance
between selecting high scoring items and enforcing diverisity.
|
logits_temperature
|
The "temperature" parameter for sampling. All the
logits will be divided by this float value. This value must be positive.
|
name
|
The name of this policy instance.
|
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.
|
num_slots
|
|
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.
|
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
View source
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
View source
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
View source
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.
|