package cecj.interaction; import java.util.ArrayList; import java.util.List; import cecj.problems.TestBasedProblem; import ec.EvolutionState; import ec.Individual; import ec.util.Parameter; /** * * @author Marcin Szubert * */ public class LearnerTeacherInteractionScheme implements InteractionScheme { private static final String P_POP = "pop"; private static final String P_ROLE = "role"; private static final String P_SIZE = "subpops"; private static final String P_SUBPOP = "subpop"; /** * Number of subpopulations. */ private int numSubpopulations; private TestBasedProblem problem; public enum Role { LEARNER, TEACHER } private Role[] subpopulationRoles; public void setup(EvolutionState state, Parameter base) { if (!(state.evaluator.p_problem instanceof TestBasedProblem)) { state.output.fatal("Learner-teacher interactions need asymmetric problem definition\n"); } else { problem = (TestBasedProblem) state.evaluator.p_problem; } Parameter popSizeParameter = new Parameter(P_POP).push(P_SIZE); numSubpopulations = state.parameters.getInt(popSizeParameter, null, 0); if (numSubpopulations <= 0) { state.output.fatal("Population size must be > 0.\n", popSizeParameter); } for (int subpop = 0; subpop < numSubpopulations; subpop++) { Parameter subpopRoleParam = base.push(P_SUBPOP).push("" + subpop).push(P_ROLE); String role = state.parameters.getString(subpopRoleParam, null); if (role == null) { state.output.fatal("Subpopulation role must be specified for the learner-teacher " + "interactions scheme\n", subpopRoleParam); } else { try { subpopulationRoles[subpop] = Enum.valueOf(Role.class, role.toUpperCase()); } catch (IllegalArgumentException ex) { state.output.fatal("Subpopulation role " + role + " does not exist in the learner-teacher interactions scheme"); } } } } public List> performInteractions(EvolutionState state, int subpop, List> opponents) { List> subpopulationResults = new ArrayList>(); Individual[] inds = state.population.subpops[subpop].individuals; for (Individual ind : inds) { List results = new ArrayList(); for (int subpop2 = 0; subpop2 < numSubpopulations; subpop2++) { if (subpopulationRoles[subpop2] != subpopulationRoles[subpop]) { List curOpponents = opponents.get(subpop2); for (Individual opponent : curOpponents) { if (subpopulationRoles[subpop] == Role.LEARNER) { results.add(problem.test(state, ind, opponent).first); } else { results.add(problem.test(state, opponent, ind).second); } } } } subpopulationResults.add(results); } return subpopulationResults; } public List getSubpopulationIndices(Role role) { List result = new ArrayList(); for (int subpop = 0; subpop < numSubpopulations; subpop++) { if (subpopulationRoles[subpop] == role) { result.add(subpop); } } return result; } }