Beispiel #1
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    def counter_all(self, offers, states):
        # find the best offer
        negotiator_ids = list(offers.keys())
        utils = np.array(
            [
                self.utility(
                    o, self.negotiators[nid][0].ami.issues[UNIT_PRICE].max_value
                )
                for nid, o in offers.items()
            ]
        )

        best_index = int(np.argmax(utils))
        best_utility = utils[best_index]
        best_partner = negotiator_ids[best_index]
        best_offer = offers[best_partner]

        # find my best proposal for each negotiation
        best_proposals = self.my_first_proposals(offers)
        good_proposals = self.good_neg_offers(offers)

        # if the best offer is still so bad just reject everything
        if best_utility < 0:
            prep_resond = {
                k: SAOResponse(ResponseType.REJECT_OFFER, good_proposals[k][0])
                for k in offers.keys()
            }
            return prep_resond

        relative_time = min(_.relative_time for _ in states.values())

        # if this is good enough or the negotiation is about to end accept the best offer
        if (
            best_utility >= self._utility_threshold * self._best_utils[best_partner]
            or relative_time > self._time_threshold
        ):
            responses = {
                k: SAOResponse(
                    ResponseType.REJECT_OFFER,  # good_proposals[k][0]
                    best_offer if self.is_valid(k, best_offer) else best_proposals[k],
                )
                for k in offers.keys()
            }
            responses[best_partner] = SAOResponse(ResponseType.ACCEPT_OFFER, None)
            return responses

        # send the best offer to everyone else and try to improve it
        responses = {
            k: SAOResponse(
                ResponseType.REJECT_OFFER,
                best_offer if self.is_valid(k, best_offer) else good_proposals[k][0],
            )
            for k in offers.keys()
        }
        responses[best_partner] = SAOResponse(
            ResponseType.REJECT_OFFER, best_proposals[best_partner]
        )
        return responses
Beispiel #2
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    def counter_all(self, offers: Dict[str, "Outcome"],
                    states: Dict[str, SAOState]) -> Dict[str, SAOResponse]:
        proposals = dict()
        for id in self.negotiators.keys():

            proposals[id] = (SAOResponse(ResponseType.ACCEPT_OFFER, None)
                             if random.random() < PROB_ACCEPTANCE else
                             SAOResponse(ResponseType.REJECT_OFFER,
                                         self._random_offer(id)))
        return proposals
Beispiel #3
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 def counter_all(self, offers: Dict[str, "Outcome"],
                 states: Dict[str, SAOState]) -> Dict[str, SAOResponse]:
     responses = {}
     for nid in offers.keys():
         offer, state = offers[nid], states[nid]
         if state.step < 2:
             responses[nid] = SAOResponse(ResponseType.REJECT_OFFER, None)
         else:
             responses[nid] = SAOResponse(ResponseType.ACCEPT_OFFER, None)
     return responses
Beispiel #4
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 def counter(self, state, offer):
     if self.waited < self.n_waits and (
         state.step > 0 or not self.ami.params["avoid_ultimatum"]
     ):
         self.waited += 1
         return SAOResponse(ResponseType.WAIT, None)
     if self._sleep_seconds:
         if isinstance(self._sleep_seconds, Sequence):
             s = (
                 random.random() * (self._sleep_seconds[1] - self._sleep_seconds[0])
                 + self._sleep_seconds[0]
             )
         else:
             s = self._sleep_seconds
         sleep(s)
     assert (
         state.step not in self.received_offers
         or self.received_offers[state.step] is None
     )
     assert state.step not in self.my_offers
     assert state.step not in self.my_responses
     self.received_offers[state.step] = offer
     response = super().counter(state, offer)
     assert response.outcome is not None
     self.my_offers[state.step] = response.outcome
     self.my_responses[state.step] = response.response
     return response
Beispiel #5
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    def counter_all(self, offers, states):

        if self.__endall:
            return dict(
                zip(
                    offers.keys(),
                    itertools.repeat(
                        SAOResponse(ResponseType.END_NEGOTIATION, None)),
                ))
        # find current aspiration level between zero and one
        asp = max(
            self.aspiration(state.relative_time) for state in states.values())

        # acceptance strategy
        partner_utils = sorted(
            zip(
                offers.keys(),
                ((self.ufun(_) - self._reserved_value) / self._urange
                 for _ in offers.values()),
            ),
            key=lambda x: -x[1],
        )
        if partner_utils[0][1] >= asp:
            response = dict(
                zip(
                    offers.keys(),
                    itertools.repeat(
                        SAOResponse(ResponseType.END_NEGOTIATION, None)),
                ))
            response[partner_utils[0][0]] = SAOResponse(
                ResponseType.ACCEPT_OFFER, None)
            self.__endall = True
            return response

        # offering strategy
        i = self._last_index
        for i, (u, _) in enumerate(self._outcomes[self._last_index:]):
            if u >= asp:
                continue
            if i > 0:
                outcome, self._last_index = self._outcomes[i - 1][1], i - 1
            else:
                outcome, self._last_index = self._outcomes[0][1], 0
            break
        else:
            outcome, self._last_index = self._outcomes[i][1], i
        return self.choose_agents(offers, outcome)
Beispiel #6
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 def counter_all(self, offers, states):
     """Respond to a set of offers given the negotiation state of each."""
     if self.new_step:
         raise RuntimeError("counter_all before first_proposals")
     return dict(
         zip(
             self.negotiators.keys(),
             [SAOResponse(ResponseType.END_NEGOTIATION, None)] *
             len(self.negotiators),
         ))
Beispiel #7
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 def choose_agents(self, offers, outcome):
     """Selects an appropriate way to distribute this outcome to agents with
     given IDs."""
     if len(offers) == 0:
         return dict()
     # fidn the partner which gave me the offer most similar to my best
     dists = sorted(
         ((sum((a - b) * (a - b) for a, b in zip(outcome, v)), k)
          for k, v in offers.items()),
         key=lambda x: x[0],
     )
     # offer everyone nothing excdpt the one agent that gave me the offer most
     # similar to my preferred outcome
     result = dict(
         zip(
             offers.keys(),
             itertools.repeat(SAOResponse(ResponseType.REJECT_OFFER, None)),
         ))
     result[dists[0][1]] = SAOResponse(ResponseType.REJECT_OFFER, outcome)
     return result
Beispiel #8
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 def counter_all(self, offers, states):
     issues = (
         self.awi.current_input_issues
         if self.awi.is_last_level
         else self.awi.current_output_issues
     )
     self._min_utility, self._max_utility = utility_range(self.ufun, issues=issues)
     self.ufun.reserved_value = self._min_utility
     AspirationMixin.aspiration_init(
         self, max_aspiration=self._max_utility, aspiration_type="boulware"
     )
     if self.__endall:
         return dict(
             zip(
                 offers.keys(),
                 itertools.repeat(SAOResponse(ResponseType.END_NEGOTIATION, None)),
             )
         )
     return super().counter_all(offers, states)
Beispiel #9
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    def counter_all(self, offers, states):
        s = set(self.get_ami(_) for _ in offers.keys())
        if self.in_counter_all and (
            not self._check_negs
            or (self._check_negs and len(self.countering_set.intersection(s)))
        ):
            raise RuntimeError(
                "uh-oh! new offers: {}, previous offers: {}".format(offers, self.offers)
            )

        self.in_counter_all = True
        self.countering_set = s
        self.offers = offers
        self.delay()
        self.in_counter_all = False

        return {
            k: SAOResponse(ResponseType.REJECT_OFFER, v)
            for k, v in self.first_proposals().items()
        }
Beispiel #10
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    def counter_all(self, offers, states):
        ex_quant = (
            self.awi.current_exogenous_input_quantity
            if self.awi.is_first_level
            else self.awi.current_exogenous_output_quantity
        )
        is_selling = self.awi.is_first_level

        assert self.awi.current_exogenous_input_quantity == self.ufun.ex_qin
        assert abs(self.awi.current_exogenous_input_price - self.ufun.ex_pin) < 1e-3
        assert self.awi.current_exogenous_output_quantity == self.ufun.ex_qout
        assert abs(self.awi.current_exogenous_output_price - self.ufun.ex_pout) < 1e-3

        utils = []
        price = self.awi.current_output_issues[UNIT_PRICE].max_value
        for i in range(11):
            o = [-1, -1, -1]
            o[UNIT_PRICE] = price
            o[QUANTITY] = i
            o[TIME] = self.awi.current_step
            utils.append(self.ufun.from_offers([o], [is_selling]))
        assumed_best = [-1, -1, -1]
        assumed_best[UNIT_PRICE] = price
        assumed_best[QUANTITY] = ex_quant
        assumed_best[TIME] = self.awi.current_step
        assumed_best_u = self.ufun.from_offers([assumed_best], [is_selling])

        best_u, best_quant = max([(u, idx) for idx, u in enumerate(utils)])

        assert (
            (not is_selling)
            or (not self.ufun.ok_to_sell_at(price))
            or (best_u == assumed_best_u)
            or best_quant >= ex_quant
        ), f"best: {best_quant}, exog: {ex_quant}\nu(best)={best_u}, u(exog) = {assumed_best_u}\nprices: {self.awi.trading_prices}\nufun:{pformat(vars(self.ufun))}"

        return {
            k: SAOResponse(ResponseType.REJECT_OFFER, v)
            for k, v in self.first_proposals().items()
        }
Beispiel #11
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 def counter_all(self, offers, states):
     if self._sleep_seconds:
         if isinstance(self._sleep_seconds, Sequence):
             s = (
                 random.random() * (self._sleep_seconds[1] - self._sleep_seconds[0])
                 + self._sleep_seconds[0]
             )
         else:
             s = self._sleep_seconds
         sleep(s)
     self.n_counter_all_calls += 1
     responses = [
         self.negotiators[_][0].ami.random_outcomes(1)[0] for _ in states.keys()
     ]
     # print(
     #     f"{self.name} COUNTERED {offers} with {responses} @ { {k: v.step for k, v in states.items()} } : w {self.n_waits}, p {self.proposals}, o {self.offers}"
     # )
     return dict(
         zip(
             states.keys(),
             (SAOResponse(ResponseType.REJECT_OFFER, _) for _ in responses),
         )
     )
Beispiel #12
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    def counter_all(self, offers: Dict[str, "Outcome"],
                    states: Dict[str, "SAOState"]) -> Dict[str, "SAOResponse"]:
        """Calculate a response to all offers from all negotiators (negotiator ID is the key).

        Args:
            offers: Maps negotiator IDs to offers
            states: Maps negotiator IDs to offers AT the time the offers were made.

        Remarks:
            - The response type CANNOT be WAIT.

        """

        # find the best offer
        negotiator_ids = list(offers.keys())
        utils = np.array([self.utility(o) for o in offers.values()])

        best_index = int(np.argmax(utils))
        best_utility = utils[best_index]
        best_partner = negotiator_ids[best_index]
        best_offer = offers[best_partner]

        # find my best proposal for each negotiation
        best_proposals = self.first_proposals()

        # if the best offer is still so bad just reject everything
        if best_utility < 0:
            return {
                k: SAOResponse(ResponseType.REJECT_OFFER, best_proposals[k])
                for k in offers.keys()
            }

        relative_time = min(_.relative_time for _ in states.values())

        # if this is good enough or the negotiation is about to end accept the best offer
        if (best_utility >= self._utility_threshold *
                self.utility(best_proposals[best_partner])
                or relative_time > self._time_threshold):
            responses = {
                k: SAOResponse(
                    ResponseType.REJECT_OFFER,
                    best_offer
                    if self.is_valid(k, best_offer) else best_proposals[k],
                )
                for k in offers.keys()
            }
            responses[best_partner] = SAOResponse(ResponseType.ACCEPT_OFFER,
                                                  None)
            return responses

        # send the best offer to everyone else and try to improve it
        responses = {
            k: SAOResponse(
                ResponseType.REJECT_OFFER,
                best_offer
                if self.is_valid(k, best_offer) else best_proposals[k],
            )
            for k in offers.keys()
        }
        responses[best_partner] = SAOResponse(ResponseType.REJECT_OFFER,
                                              best_proposals[best_partner])
        return responses