Source code for axelrod.strategies.adaptor

from typing import Dict, Tuple

from axelrod.action import Action
from axelrod.player import Player
from numpy import heaviside

C, D = Action.C, Action.D


[docs] class AbstractAdaptor(Player): """ An adaptive strategy that updates an internal state based on the last round of play. Using this state the player Cooperates with a probability derived from the state. s, float: the internal state, initially 0 perr, float: an error threshold for misinterpreted moves delta, a dictionary of floats: additive update values for s depending on the last round's outcome Names: - Adaptor: [Hauert2002]_ """ name = "AbstractAdaptor" classifier = { "memory_depth": float("inf"), # Long memory "stochastic": True, "long_run_time": False, "inspects_source": False, "manipulates_source": False, "manipulates_state": False, } def __init__( self, delta: Dict[Tuple[Action, Action], float], perr: float = 0.01 ) -> None: super().__init__() self.perr = perr self.delta = delta self.s = 0.0
[docs] def strategy(self, opponent: Player) -> Action: """Actual strategy definition that determines player's action.""" if self.history: # Update internal state from the last play last_round = (self.history[-1], opponent.history[-1]) self.s += self.delta[last_round] # Compute probability of Cooperation p = self.perr + (1.0 - 2 * self.perr) * ( heaviside(self.s + 1, 1) - heaviside(self.s - 1, 1) ) # Draw action action = self._random.random_choice(p) return action
[docs] class AdaptorBrief(AbstractAdaptor): """ An Adaptor trained on short interactions. Names: - AdaptorBrief: [Hauert2002]_ """ name = "AdaptorBrief" def __init__(self) -> None: delta = { (C, C): 0.0, # R (C, D): -1.001505, # S (D, C): 0.992107, # T (D, D): -0.638734, # P } super().__init__(delta=delta)
[docs] class AdaptorLong(AbstractAdaptor): """ An Adaptor trained on long interactions. Names: - AdaptorLong: [Hauert2002]_ """ name = "AdaptorLong" def __init__(self) -> None: delta = { (C, C): 0.0, # R (C, D): 1.888159, # S (D, C): 1.858883, # T (D, D): -0.995703, # P } super().__init__(delta=delta)