def query_which_route(query, session, result): """ Which routes stop at a given bus stop """ stop_name = result.stop_name # 'Einarsnes', 'Fiskislóð'... if stop_name in {"þar", "þangað"}: # Referring to a bus stop mentioned earlier ctx = query.fetch_context() if ctx and "bus_stop" in ctx: stop_name = ctx["bus_stop"] result.qkey = stop_name else: answer = voice_answer = "Ég veit ekki við hvaða stað þú átt." response = dict(answer=answer) return response, answer, voice_answer bus_noun = result.bus_noun # 'strætó', 'vagn', 'leið'... stops = straeto.BusStop.named(stop_name, fuzzy=True) if not stops: a = [stop_name, "þekkist ekki."] va = [ "Ég", "þekki", "ekki", "biðstöðina", stop_name.capitalize(), ] else: routes = set() if query.location: straeto.BusStop.sort_by_proximity(stops, query.location) stop = stops[0] for route_id in stop.visits.keys(): number = straeto.BusRoute.lookup(route_id).number routes.add(number) va = [bus_noun, "númer"] a = va[:] nroutes = len(routes) cnt = 0 for rn in sorted(routes, key=lambda t: int(t)): if cnt: sep = "og" if cnt + 1 == nroutes else "," va.append(sep) a.append(sep) # We convert inflectable numbers to their text equivalents # since the speech engine can't be relied upon to get the # inflection of numbers right va.append(numbers_to_neutral(rn)) a.append(rn) cnt += 1 tail = ["stoppar á", to_dative(stop.name)] va.extend(tail) a.extend(tail) # Store a location coordinate and a bus stop name in the context query.set_context({"location": stop.location, "bus_stop": stop.name}) voice_answer = correct_spaces(" ".join(va) + ".") answer = correct_spaces(" ".join(a)) answer = answer[0].upper() + answer[1:] response = dict(answer=answer) return response, answer, voice_answer
def query_arrival_time(query: Query, session: Session, result: Result): """ Answers a query for the arrival time of a bus """ # Examples: # 'Hvenær kemur strætó númer 12?' # 'Hvenær kemur leið sautján á Hlemm?' # 'Hvenær kemur næsti strætó í Einarsnes?' # Retrieve the client location, if available, and the name # of the bus stop, if given stop_name: Optional[str] = result.get("stop_name") stop: Optional[straeto.BusStop] = None location: Optional[Tuple[float, float]] = None if stop_name in {"þar", "þangað"}: # Referring to a bus stop mentioned earlier ctx = query.fetch_context() if ctx and "bus_stop" in ctx: stop_name = cast(str, ctx["bus_stop"]) else: answer = voice_answer = "Ég veit ekki við hvaða stað þú átt." response = dict(answer=answer) return response, answer, voice_answer if not stop_name: location = query.location if location is None: answer = "Staðsetning óþekkt" response = dict(answer=answer) voice_answer = "Ég veit ekki hvar þú ert." return response, answer, voice_answer # Obtain today's bus schedule global SCHEDULE_TODAY with SCHEDULE_LOCK: if SCHEDULE_TODAY is None or not SCHEDULE_TODAY.is_valid_today: # We don't have today's schedule: create it SCHEDULE_TODAY = straeto.BusSchedule() # Obtain the set of stops that the user may be referring to stops: List[straeto.BusStop] = [] if stop_name: stops = straeto.BusStop.named(stop_name, fuzzy=True) if query.location is not None: # If we know the location of the client, sort the # list of potential stops by proximity to the client straeto.BusStop.sort_by_proximity(stops, query.location) else: # Obtain the closest stops (at least within 400 meters radius) assert location is not None stops = cast( List[straeto.BusStop], straeto.BusStop.closest_to_list(location, n=2, within_radius=0.4), ) if not stops: # This will fetch the single closest stop, regardless of distance stops = [ cast(straeto.BusStop, straeto.BusStop.closest_to(location)) ] # Handle the case where no bus number was specified (i.e. is 'Any') if result.bus_number == "Any" and stops: stop = stops[0] routes = sorted( (straeto.BusRoute.lookup(rid).number for rid in stop.visits.keys()), key=lambda r: int(r), ) if len(routes) != 1: # More than one route possible: ask user to clarify route_seq = natlang_seq(list(map(str, routes))) answer = (" ".join( ["Leiðir", route_seq, "stoppa á", to_dative(stop.name)]) + ". Spurðu um eina þeirra.") voice_answer = (" ".join([ "Leiðir", numbers_to_neutral(route_seq), "stoppa á", to_dative(stop.name), ]) + ". Spurðu um eina þeirra.") response = dict(answer=answer) return response, answer, voice_answer # Only one route: use it as the query subject bus_number = routes[0] bus_name = "strætó númer {0}".format(bus_number) else: bus_number = result.bus_number if "bus_number" in result else 0 bus_name = result.bus_name if "bus_name" in result else "Óþekkt" # Prepare results bus_name = cap_first(bus_name) va = [bus_name] a = [] arrivals = [] arrivals_dict = {} arrives = False route_number = str(bus_number) # First, check the closest stop # !!! TODO: Prepare a different area_priority parameter depending # !!! on the user's location; i.e. if she is in Eastern Iceland, # !!! route '1' would mean 'AL.1' instead of 'ST.1'. if stops: for stop in stops: arrivals_dict, arrives = SCHEDULE_TODAY.arrivals( route_number, stop) if arrives: break arrivals = list(arrivals_dict.items()) a = ["Á", to_accusative(stop.name), "í átt að"] if arrivals: # Get a predicted arrival time for each direction from the # real-time bus location server prediction = SCHEDULE_TODAY.predicted_arrival(route_number, stop) now = datetime.utcnow() hms_now = (now.hour, now.minute + (now.second // 30), 0) first = True # We may get three (or more) arrivals if there are more than two # endpoints for the bus route in the schedule. To minimize # confusion, we only include the two endpoints that have the # earliest arrival times and skip any additional ones. arrivals = sorted(arrivals, key=lambda t: t[1][0])[:2] for direction, times in arrivals: if not first: va.append(", og") a.append(". Í átt að") va.extend(["í átt að", to_dative(direction)]) a.append(to_dative(direction)) deviation = [] if prediction and direction in prediction: # We have a predicted arrival time hms_sched = times[0] hms_pred = prediction[direction][0] # Calculate the difference between the prediction and # now, and skip it if it is 1 minute or less diff = hms_diff(hms_pred, hms_now) if abs(diff) <= 1: deviation = [", en er að fara núna"] else: # Calculate the difference in minutes between the # schedule and the prediction, with a positive number # indicating a delay diff = hms_diff(hms_pred, hms_sched) if diff < -1: # More than one minute ahead of schedule if diff < -5: # More than 5 minutes ahead deviation = [ ", en kemur sennilega fyrr, eða", hms_fmt(hms_pred), ] else: # Two to five minutes ahead deviation = [ ", en er", str(-diff), "mínútum á undan áætlun", ] elif diff >= 3: # 3 minutes or more behind schedule deviation = [ ", en kemur sennilega ekki fyrr en", hms_fmt(hms_pred), ] if first: assert stop is not None if deviation: va.extend(["á að koma á", to_accusative(stop.name)]) else: va.extend(["kemur á", to_accusative(stop.name)]) va.append("klukkan") a.append("klukkan") if len(times) == 1 or (len(times) > 1 and hms_diff(times[0], hms_now) >= 10): # Either we have only one arrival time, or the next arrival is # at least 10 minutes away: only pronounce one time hms = times[0] time_text = hms_fmt(hms) else: # Return two or more times time_text = " og ".join(hms_fmt(hms) for hms in times) va.append(time_text) a.append(time_text) va.extend(deviation) a.extend(deviation) first = False elif arrives: # The given bus has already completed its scheduled halts at this stop today assert stops stop = stops[0] reply = ["kemur ekki aftur á", to_accusative(stop.name), "í dag"] va.extend(reply) a = [bus_name] + reply elif stops: # The given bus doesn't stop at all at either of the two closest stops stop = stops[0] va.extend(["stoppar ekki á", to_dative(stop.name)]) a = [bus_name, "stoppar ekki á", to_dative(stop.name)] else: # The bus stop name is not recognized va = a = [stop_name.capitalize(), "er ekki biðstöð"] if stop is not None: # Store a location coordinate and a bus stop name in the context query.set_context({"location": stop.location, "bus_stop": stop.name}) # Hack: Since we know that the query string contains no uppercase words, # adjust it accordingly; otherwise it may erroneously contain capitalized # words such as Vagn and Leið. bq = query.beautified_query for t in ( ("Vagn ", "vagn "), ("Vagni ", "vagni "), ("Vagns ", "vagns "), ("Leið ", "leið "), ("Leiðar ", "leiðar "), ): bq = bq.replace(*t) query.set_beautified_query(bq) def assemble(x): """ Intelligently join answer string components. """ return (" ".join(x) + ".").replace(" .", ".").replace(" ,", ",") voice_answer = assemble(va) answer = assemble(a) response = dict(answer=answer) return response, answer, voice_answer