Exemplo n.º 1
0
def nestIA(nest):
    # NEST PROGRAM

    comment(str(nest), bcolors.OKBLUE)

    if nest.memory[KILL_AT_PH] == 0:
        nest.memory[KILL_AT_PH] = 70
        nest.commitMemory()

    if nest.arrAnt:
        comment("capitalize create rama", bcolors.OKGREEN)
        nest.memory[KILL_AT_PH] = int(nest.arrAnt[0]["m1"] * 1.3)
        nest.commitMemory()
        nest.newAnt(ANT_RAMASSEUR)
        return

    if nest.arrAntType:
        nest.antOut(nest.arrAntType[0]["type"], 3, nest.memory[KILL_AT_PH], 0)
        return

    if nest.memory[NB_ANT_CREATED] < 1:
        comment("capitalize create ant", bcolors.OKGREEN)
        nest.memory[NB_ANT_CREATED] += 2
        nest.commitMemory()
        nest.newAnt(ANT_ECLAIREUR)
        return

    elif randint(0, 200) < 1:
        comment("random create ant", bcolors.OKGREEN)
        nest.memory[NB_ANT_CREATED] = 1
        nest.memory[KILL_AT_PH] = int(nest.memory[KILL_AT_PH] + 1 * 1.5)
        nest.commitMemory()
        nest.newAnt(ANT_ECLAIREUR)
        return
Exemplo n.º 2
0
def nestIA(nest):
    # NEST PROGRAM

    comment(str(nest))

    if nest.memory[0] == 0:
        nest.setMemoryLocation(0, 1)
        nest.commitMemory()
        nest.newAnt(0)

    elif nest.memory[0] == 1:
        nest.setMemoryLocation(0, 2)
        nest.commitMemory()
        nest.antOut(0, 50, 0, 0)
Exemplo n.º 3
0
		while line[0] != 'END':
			cmd = line[0]
			args = line[1:]
			if cmd == 'STOCK':
				qtt = args[0]
				qtt = int(qtt)
				nest.setFood(qtt)

			elif cmd == 'MEMORY':
				tab_mem = [int(v) for v in args]
				nest.setMemory(tab_mem)

			elif cmd == 'ANT_COUNT':
				typ, qtt = [int(v) for v in args]
				nest.setAntCount(typ, qtt)

			elif cmd == 'ANT_IN':
				typ, m1, m2 = [int(v) for v in args]
				nest.setAntIn(typ, m1, m2)

			line = input().split()

		return nest

if __name__ == '__main__':
	t, obj = Protocol.readInput()
	comment(str(obj))
	comment(str(t))
	print("ANT_NEW 4")
	Protocol.exit()
Exemplo n.º 4
0
def antIA(ant):
    # ANT PROGRAM

    #  time.sleep(1)

    if ant.type == ANT_ECLAIREUR:
        comment("ANT_ECLAIREUR", bcolors.OKGREEN)
        lastIdPaht = []
        lastIdPaht.append(0)
        for ph in ant.arrSeePheromone:
            lastIdPaht.append(ph["type"])
        idPathStart = max(lastIdPaht)

        if ant.stamina < STAMINA_NEED_EAT and ant.food > 0:
            ant.say("ant-eat")
            ant.eat(1)
            return

        gotFood = (ant.m2 == 1 or ant.m2 == 2)
        needMove = (ant.m2 == 1)

        if idPathStart > ant.m1 and not gotFood:
            ant.say("SUICIDE")
            ant.suicide()
            return

        # NEED STAMINA
        if ant.stamina < STAMINA_NEED_EAT:
            ant.say("ON BOUFFE, ON NEED DE LA STAMINA")
            ant.suicide()
            return

        phs = ant.arrSeePheromone
        # needRechargePhs = les phs qui sont < PH_NEED_RECHARGE
        nearest = compareKey("area", phs, operator.eq, "NEAR")
        needRefuel = compareKey("persistance", nearest, operator.lt,
                                PH_NEED_RECHARGE)

        #  if len(needRefuel) > 0:
        #  ant.say("LE PHEROMONE A BESOIN DE SE FAIRE RECHARGER")
        #  ant.rechargePheromone(needRefuel[0]["id"])
        #  return

        # farPh = la phs la plus loin
        # HOME RETURN

        id_min = 0
        type_min = 99999999999
        for ph in ant.arrSeePheromone:
            if type_min > ph["type"]:
                id_min = ph["id"]
                type_min = ph["type"]
        if gotFood:

            if ant.arrSeeNest and ant.arrSeeNest[0]["area"] == 'FAR':
                ant.say("ON SE DIRIGE VERS LE BERCAIL")
                ant.moveTo(ant.arrSeeNest[0]["id"])
                return

            if ant.arrSeeNest and ant.arrSeeNest[0]["area"] == 'NEAR':
                ant.say("BERCAIL")
                ant.nest(ant.arrSeeNest[0]["id"])
                return

            ant.say("ON SE DIRIGE VERS LE CHEMIN DU RETOUR")

            if needMove:
                ant.setMemory(ant.m1, 2)
                ant.moveTo(id_min)
            else:

                ant.setMemory(ant.m1, 1)
                nearestPhero = [
                    x for x in ant.arrSeePheromone if x["area"] == "NEAR"
                ]

                if not nearestPhero:
                    ant.setMemory(ant.m1, 2)
                    ant.moveTo(id_min)
                else:

                    a = minMaxKey("dist", nearestPhero, min)
                    ant.rechargePheromone(a)

            ant.commitMemory()
            return

        # partie calcul min distance
        ant.say("test")
        phs = [x for x in phs if x["dist"] < DISTANCE_NEED_PUT_PH]
        ant.say("phs" + str(phs))

        if not phs:
            ant.say("ON A BESOIN DE PLACER UN PHEROMONE, INIT")
            ant.putPheromone(idPathStart + 1)
            return

        #  ant.say("idPathStart" + str(idPathStart))
        #  ant.say("arrSeePheromone" + str(ant.arrSeePheromone))

        ant.say("arrSeeFood" + str(ant.arrSeeFood))
        if ant.arrSeeFood:

            nearestFoodSrc = [x for x in ant.arrSeeFood if x["area"] == 'NEAR']

            if nearestFoodSrc:
                ant.say("ON RECUPERE DE LA BOUFFE")
                ant.collect(nearestFoodSrc[0]["id"],
                            min(nearestFoodSrc[0]["amount"], ant.FOOD_MAX) - 1)
                ant.setMemory(idPathStart + 10, 2)
                ant.commitMemory()
                return

            else:
                ant.say("ON SE DIRIGE VERS LA BOUFFE")
                ant.moveTo(ant.arrSeeFood[0]["id"])
                return

        #  s = sorted(ant.arrSeePheromone, key = lambda x: (x["persistance"], x["type"]))
        #  if s and randint(0, 1000) < 2:
        #  ant.moveTo(s[0]["id"])
        #  return

        #  ant.say("arrSeePheromone ==" + str(ant.arrSeePheromone))
        ant.explore()
        ant.say("ON A RIEN TROUVE, ON EXPLORE")

        return

    elif ant.type == ANT_RAMASSEUR:
        comment("ANT_RAMASSEUR", bcolors.OKGREEN)

        lastIdPaht = []
        lastIdPaht.append(0)
        for ph in ant.arrSeePheromone:
            lastIdPaht.append(ph["persistance"])
        idPathStart = max(lastIdPaht)
        comment("idPathStart: " + str(idPathStart))

        gotFood = (ant.m2 == 1 or ant.m2 == 2)
        needMove = (ant.m2 == 1)

        #  if not gotFood:
        #  ant.say("SUICIDE")
        #  ant.suicide()
        #  return

        # NEED STAMINA
        if ant.stamina < STAMINA_NEED_EAT:
            ant.say("ON BOUFFE, ON NEED DE LA STAMINA")
            ant.eat(1)
            return

        phs = ant.arrSeePheromone
        # needRechargePhs = les phs qui sont < PH_NEED_RECHARGE
        nearest = compareKey("area", phs, operator.eq, "NEAR")
        needRefuel = compareKey("persistance", nearest, operator.lt,
                                PH_NEED_RECHARGE)

        #  if len(needRefuel) > 0:
        #  ant.say("LE PHEROMONE A BESOIN DE SE FAIRE RECHARGER")
        #  ant.rechargePheromone(needRefuel[0]["id"])
        #  return

        # farPh = la phs la plus loin
        # HOME RETURN

        id_min = 0
        pers_min = 99999999999
        for ph in ant.arrSeePheromone:
            if pers_min > ph["persistance"]:
                id_min = ph["id"]
                pers_min = ph["persistance"]

        if gotFood:

            if ant.arrSeeNest and ant.arrSeeNest[0]["area"] == 'FAR':
                ant.say("ON SE DIRIGE VERS LE BERCAIL")
                ant.moveTo(ant.arrSeeNest[0]["id"])
                return

            if ant.arrSeeNest and ant.arrSeeNest[0]["area"] == 'NEAR':
                ant.say("BERCAIL")
                ant.nest(ant.arrSeeNest[0]["id"])
                return

            ant.say("ON SE DIRIGE VERS LE CHEMIN DU RETOUR")

            if needMove:
                ant.setMemory(ant.m1, 2)
                ant.moveTo(pers_min)
            else:

                ant.setMemory(ant.m1, 1)
                nearestPhero = [
                    x for x in ant.arrSeePheromone if x["area"] == "NEAR"
                ]

                if not nearestPhero:
                    ant.setMemory(ant.m1, 2)
                    ant.moveTo(pers_min)
                else:

                    a = minMaxKey("dist", nearestPhero, min)
                    ant.rechargePheromone(a)

        ant.say("arrSeeFood" + str(ant.arrSeeFood))
        if ant.arrSeeFood:

            nearestFoodSrc = [x for x in ant.arrSeeFood if x["area"] == 'NEAR']

            if nearestFoodSrc:
                ant.say("ON RECUPERE DE LA BOUFFE")
                ant.collect(nearestFoodSrc[0]["id"],
                            min(nearestFoodSrc[0]["amount"], ant.FOOD_MAX))
                ant.setMemory(ant.m1, 2)
                ant.commitMemory()
                return

            else:
                ant.say("ON SE DIRIGE VERS LA BOUFFE")
                ant.moveTo(ant.arrSeeFood[0]["id"])
                return

        ant.moveTo(id_min)
        return

    return
Exemplo n.º 5
0
        nest.commitMemory()
        nest.newAnt(ANT_ECLAIREUR)
        return

    elif randint(0, 200) < 1:
        comment("random create ant", bcolors.OKGREEN)
        nest.memory[NB_ANT_CREATED] = 1
        nest.memory[KILL_AT_PH] = int(nest.memory[KILL_AT_PH] + 1 * 1.5)
        nest.commitMemory()
        nest.newAnt(ANT_ECLAIREUR)
        return

    #  elif randint(0, 10) < 1:
    #  comment("random create ant", bcolors.OKGREEN)
    #  nest.memory[NB_ANT_CREATED] = 1
    #  nest.memory[KILL_AT_PH] = int(nest.memory[KILL_AT_PH]+1 * 1.5)
    #  nest.commitMemory()
    #  nest.newAnt(ANT_RAMASSEUR)
    #  return


while True:
    nameEntity, entity = Protocol.readInput()
    comment(nameEntity)
    if nameEntity == 'ANT':
        antIA(entity)
    elif nameEntity == 'NEST':
        nestIA(entity)

    Protocol.exit()
Exemplo n.º 6
0
 def say(self, msg):
     comment(msg)