Ejemplo n.º 1
0
def load_sudoku(sudoku):
    """ Create a list of fields with all relevant information based on a sudoku. The sudoku needs to be in the form found in Sudokus.py """
    y = 0
    id_num = 0
    fields = []
    
    for row in sudoku:
        x = 0
        for number in row:
            # Create a field
            field = Field()

            # Set coordinates, 3x3 box and and id
            field.x = x
            field.y = y
            field.box = set_box_number(x, y)
            field.id = id_num
            

            field.number = number

            # If the field has a number, that is the only possibility
            if field.number != 0:
                field.possible = {field.number}

            fields.append(field)

            # Step up all index
            x += 1
            id_num += 1
        y += 1
        
    return fields
Ejemplo n.º 2
0
def confusion_attack(def_poke):

    confusion_move = Move()
    confusion_move.i_pow = 40
    confusion_move.str_type = "confusion"

    i_dmg = attack(def_poke, def_poke, confusion_move, Field())

    return i_dmg
Ejemplo n.º 3
0
    def __init__(self, l_new_players=[]):
        self.firstRun = True

        self.field = Field(l_new_players[0], l_new_players[1])

        self.l_players = l_new_players

        self.b_gameover = False

        for player in self.l_players:
            other_player = self.get_other_player(player)

            player.i_turn_readiness = NOT_READY

            player.send_data(FOUND_BATTLE)
            player.send_pokes(other_player.team)
            player.send_data(
                SELECT_POKE +
                json.dumps({"availpoke": player.get_available_pokes()}))
Ejemplo n.º 4
0
 def __init__(self, bzrc):
     self.bzrc = bzrc
     self.field = Field(-400, 400, -400, 400)
     self.field.setupMap4Ls()
     #self.field.setupMapRotatedBoxes()
     self.field.fastCalculate()
     self.constants = self.bzrc.get_constants()
     self.commands = []
     self.prevError = defaultdict(list)
     self.vizualize = True
     self.gotFlag = False
     self.prevLocation = [0, 0]
     self.stuckTimer = time.time()
     self.stuck = False
Ejemplo n.º 5
0
def copy_fields(fields):
    """ Create a copy of the fields in the list called "fields" """
    fields_c = []
    for field in fields:
        # copy all values in the fields and append them to copy list
        f = Field()
        f.x = field.x
        f.y = field.y
        f.box = field.box
        f.id = field.id

        f.number = field.number
        f.possible = field.possible

        fields_c.append(f)
    
    return fields_c
Ejemplo n.º 6
0
from FieldClass import Field

f = Field(-400,400,-400,400)
'''
f.setAttractionWeight(1)
f.setAttractionRadius(5)
f.setAttractionSpread(1132)

f.setRepulsionWeight(.5)
f.setRepulsionRadius(2)
f.setRepulsionSpread(50)

f.setTangentialWeight(2)
f.setTangentialRadius(10)
f.setTangentialSpread(12)
'''
'''
f.clearGoals()
f.clearObstacles()
f.addGoal(370,0) # green flag
f.addObstacle(-100,-100)
'''

f.setupMap4Ls()
#f.setupMapRotatedBoxes()

#f.calculateFields()

f.fastCalculate()

print f.getFast(297, 50), f.getFast(300, 50), f.getFast(303, 50)
Ejemplo n.º 7
0
class Battle(object):
    def __init__(self, l_new_players=[]):
        self.firstRun = True

        self.field = Field(l_new_players[0], l_new_players[1])

        self.l_players = l_new_players

        self.b_gameover = False

        for player in self.l_players:
            other_player = self.get_other_player(player)

            player.i_turn_readiness = NOT_READY

            player.send_data(FOUND_BATTLE)
            player.send_pokes(other_player.team)
            player.send_data(
                SELECT_POKE +
                json.dumps({"availpoke": player.get_available_pokes()}))

    def get_other_player(self, player):
        i_player_idx = self.l_players.index(player)
        return self.l_players[(i_player_idx + 1) % 2]

    def hazard_dmg(self, player):

        atk_poke = player.active_poke
        other_player = self.get_other_player(player)
        def_poke = other_player.active_poke

        if atk_poke == None or def_poke == None:
            return

        self.send_players_pokes()

        # entry hazards

        if self.field.count_entry_hazards(player, "spikes") == 1:
            atk_poke.i_hp -= atk_poke.get_usable_stats().i_hp * 1 / 8
        elif self.field.count_entry_hazards(player, "spikes") == 2:
            atk_poke.i_hp -= atk_poke.get_usable_stats().i_hp * 1 / 6
        elif self.field.count_entry_hazards(player, "spikes") == 3:
            atk_poke.i_hp -= atk_poke.get_usable_stats().i_hp * 1 / 4

        if self.field.count_entry_hazards(player, "stealth-rock") >= 1:
            atk_poke.i_hp -= atk_poke.get_usable_stats().i_hp * 0.125 * Type(
                "Rock").getAtkEff(atk_poke.type_1, atk_poke.type_2)

        if self.field.count_entry_hazards(player, "sticky-web") >= 1:
            atk_poke.modifier_stats.i_spe -= 1

        if self.field.count_entry_hazards(player, "toxic-spikes") == 1:
            atk_poke.str_status = "poison"
        elif self.field.count_entry_hazards(player, "toxic-spikes") == 2:
            atk_poke.str_status = "toxic"

        self.send_players_pokes()

    def recieved_data(self, player, dic_data):

        other_player = self.get_other_player(player)

        if dic_data["battlestate"] == "chat":
            print(dic_data)
            player.send_data(DISPLAY_TEXT + "You : " + dic_data["chat"])
            other_player.send_data(DISPLAY_TEXT + "Other : " +
                                   dic_data["chat"])

        elif dic_data["battlestate"] == "pokes":
            pass
        elif dic_data["battlestate"] == "selectpoke":

            self.hazard_dmg(player)

            pass
        elif dic_data["battlestate"] == "selectmove":
            pass

    def everyone_ready(self):
        b_ready = True
        for player in self.l_players:
            b_ready = b_ready and player.i_turn_readiness
        return b_ready

    def send_players_pokes(self):

        for player in self.l_players:
            if player.b_active_poke_is_new:
                player.b_active_poke_is_new = False

        # send updated info to players
        for player in self.l_players:
            atk_poke = player.active_poke
            other_player = self.get_other_player(player)
            def_poke = other_player.active_poke

            player.send_data(DISPLAY_POKES +
                             json.dumps({
                                 "player": ME,
                                 "pokeidx": player.i_active_poke_idx,
                                 "poke": atk_poke.to_dic()
                             }))

            player.send_data(DISPLAY_POKES +
                             json.dumps({
                                 "player": OTHER,
                                 "pokeidx": other_player.i_active_poke_idx,
                                 "poke": def_poke.to_dic()
                             }))

    def send_delay(self):
        for player in self.l_players:
            player.send_data(DISPLAY_DELAY)

    def send_broadcast(self, str_msg):
        for player in self.l_players:
            player.send_data(DISPLAY_TEXT + str_msg)

    def send_move(self, player, move):
        other_player = self.get_other_player(player)
        player.send_data(DISPLAY_MOVE + json.dumps({
            "player": ME,
            "move": move.to_dic()
        }))
        other_player.send_data(DISPLAY_MOVE + json.dumps({
            "player": OTHER,
            "move": move.to_dic()
        }))

    def send_field(self):
        for player in self.l_players:
            other_player = self.get_other_player(player)
            player.send_data(
                DISPLAY_FIELD +
                json.dumps(self.field.to_dic(player, other_player)))

    def send_ad_hoc_text(self, player, str_text):
        other_player = self.get_other_player(player)
        player.send_data(DISPLAY_AD_HOC_TEXT + json.dumps({
            "player": ME,
            "move": str_text
        }))
        other_player.send_data(DISPLAY_AD_HOC_TEXT +
                               json.dumps({
                                   "player": OTHER,
                                   "move": str_text
                               }))

    def player_poke_fainted(self, player):
        atk_poke = player.active_poke
        other_player = self.get_other_player(player)
        def_poke = other_player.active_poke

        player.i_turn_readiness = NOT_READY
        player.i_active_move_idx = -1

        if def_poke.b_destiny_bonded:
            def_poke.b_destiny_bonded = False
            def_poke.i_hp = 0
            def_poke.is_usable()
            self.player_poke_fainted(other_player)

        if atk_poke.b_grudge:
            def_poke.get_last_move().i_pp = 0

        if len(player.get_available_pokes()) <= 0:
            self.b_gameover = True
            player.send_data(DISPLAY_LOSE)
            other_player.send_data(DISPLAY_WIN)
            # self.send_delay()
            return True

        return False

    def run(self):
        # Log.info("battle running")

        # print(self.l_players[0].i_turn_readiness,self.l_players[1].i_turn_readiness)

        if (not self.everyone_ready() or self.b_gameover):
            return

        if self.field.i_weather_counter > 0:
            self.field.i_weather_counter -= 1

        if self.field.i_weather_counter == 0:
            self.field.weather = Weather.CLEAR_SKIES

        self.send_players_pokes()

        for player in self.l_players:
            player.pre_turn()

        # calculate damages

        l_move_queue = []

        # add moves to queue according to speed
        for player in self.l_players:
            atk_poke = player.active_poke
            other_player = self.get_other_player(player)
            def_poke = other_player.active_poke

            if (player.i_active_move_idx == -1):
                continue

            if len(l_move_queue) >= 1:
                if atk_poke.get_moves(
                )[player.i_active_move_idx].i_priority > def_poke.get_moves()[
                        other_player.i_active_move_idx].i_priority:
                    l_move_queue.insert(0, player)
                elif atk_poke.get_moves(
                )[player.i_active_move_idx].i_priority < def_poke.get_moves()[
                        other_player.i_active_move_idx].i_priority:
                    l_move_queue.append(player)
                elif atk_poke.get_usable_stats(
                ).i_spe > l_move_queue[0].active_poke.get_usable_stats().i_spe:
                    l_move_queue.insert(0, player)
                else:
                    l_move_queue.append(player)
            else:
                l_move_queue.append(player)

        b_last = False

        # move according to queue
        for player in l_move_queue:
            atk_poke = player.active_poke
            other_player = self.get_other_player(player)
            def_poke = other_player.active_poke

            #print("susu",atk_poke.is_usable())

            if not atk_poke.is_usable():
                continue

            other_player = self.get_other_player(player)

            cur_move = atk_poke.get_moves()[player.i_active_move_idx]

            if not cur_move.use_move():
                if cur_move.i_pp <= 0:
                    self.send_broadcast(cur_move.str_name.capitalize() +
                                        " has no PP left!")
                if cur_move.i_disable_idx > 0:
                    self.send_broadcast(cur_move.str_name.capitalize() +
                                        " is disabled!")
                continue

            if cur_move.str_name in ["copycat", "mirror-move"]:
                cur_move = def_poke.get_last_move()

            print(atk_poke, "used move", cur_move)

            # check if move hit
            b_hit = accuracy(atk_poke, def_poke, cur_move)

            b_para_immo = False
            if atk_poke.str_status == "paralyze":
                if randint(0, 99) < 25:
                    b_para_immo = True

            if atk_poke.str_status == "freeze":
                if randint(0, 99) < 20:
                    # thawed
                    atk_poke.str_status = "none"
                    self.send_broadcast(atk_poke.str_name.capitalize() +
                                        " thawed out!")

            if atk_poke.str_status == "sleep":
                if atk_poke.i_sleep_counter <= 0:
                    # woke
                    atk_poke.str_status = "none"
                    self.send_broadcast(atk_poke.str_name.capitalize() +
                                        " woke up!")
                atk_poke.i_sleep_counter -= 1

            if atk_poke.str_status == "confuse":
                if atk_poke.i_confusion_counter <= 0:
                    # snapped out of confusion
                    atk_poke.str_status = "none"
                    self.send_broadcast(atk_poke.str_name.capitalize() +
                                        " snapped out of confusion!")
                atk_poke.i_confusion_counter -= 1

            # check if moving is possible

            if b_para_immo:

                # paralysed, can't move
                self.send_broadcast(atk_poke.str_name.capitalize() +
                                    " is paralyzed!")
                self.send_broadcast("It can't move!")

            elif atk_poke.str_status == "freeze":

                # frozen, can't move
                self.send_broadcast(atk_poke.str_name.capitalize() +
                                    " is frozen solid!")
                self.send_ad_hoc_text(player, "frozen")

            elif atk_poke.str_status == "sleep":

                # asleep, can't move
                self.send_broadcast(atk_poke.str_name.capitalize() +
                                    " is fast asleep!")

            elif atk_poke.str_status == "confuse" and randint(0, 99) < 33:

                # confused, hurt it self
                self.send_broadcast(atk_poke.str_name.capitalize() +
                                    " hurt itself in confusion!")

                # calculate confusion damage
                i_dmg = confusion_attack(atk_poke)

                self.send_broadcast(
                    atk_poke.str_name.capitalize() + " lost " +
                    str(i_dmg / atk_poke.get_usable_stats().i_hp * 100) +
                    "% HP.")

                atk_poke.i_hp -= i_dmg

            elif b_hit:

                # woah, the move hit
                self.send_broadcast(atk_poke.str_name.capitalize() + " used " +
                                    cur_move.str_name + ".")

                # electrify
                if def_poke.forced_move_type != None:
                    cur_move = copy.deepcopy(cur_move)
                    cur_move.type = def_poke.forced_move_type
                    def_poke.forced_move_type = None

                # some moves hit more than one time
                i_hits = multi_hit(cur_move)
                for i in range(i_hits):

                    # calculate damage

                    self.send_move(player, cur_move)

                    i_dmg = attack(atk_poke, def_poke, cur_move, self.field,
                                   player, other_player,
                                   l_move_queue.index(player) == 1)

                    if not move_ad_hoc_during(atk_poke, def_poke, cur_move,
                                              self.field, player, other_player,
                                              l_move_queue.index(player) == 1):
                        self.send_broadcast("It failed!")
                        self.send_ad_hoc_text(player, "failed")
                    else:
                        if other_player.b_active_poke_is_new:
                            self.hazard_dmg(other_player)
                        elif player.i_turn_readiness == NOT_READY:
                            return

                    self.send_field()

                    # move ad hoc

                    if def_poke.b_protected and cur_move.flag_protect:
                        # protected
                        self.send_broadcast(def_poke.str_name.capitalize() +
                                            " protected itself.")
                        self.send_ad_hoc_text(other_player, "protected")
                        continue

                    # if the move is not status, tell everyone the damage
                    if cur_move.str_cat != "status":

                        i_tmp_eff = cur_move.type.getAtkEff(
                            def_poke.type_1, def_poke.type_2)

                        if i_tmp_eff == 0:
                            self.send_broadcast("It had no effect!")
                        elif i_tmp_eff == 0.25:
                            self.send_broadcast(
                                "It is very not very effective!")
                        elif i_tmp_eff == 0.5:
                            self.send_broadcast("It is not very effective.")
                        elif i_tmp_eff == 2:
                            self.send_broadcast("It is super effective!")
                        elif i_tmp_eff == 4:
                            self.send_broadcast("It is super super effective!")

                        # self.send_broadcast(str(def_poke.i_hp) + " - " + str(i_dmg) + " = " + str(def_poke.i_hp - i_dmg))
                        self.send_broadcast(
                            def_poke.str_name.capitalize() + " lost " +
                            str(i_dmg / def_poke.get_usable_stats().i_hp *
                                100) + "% HP.")

                    # actually take damage

                    def_poke.i_hp -= i_dmg

                    player.i_active_move_idx = -1

                    # is it dead???
                    if (def_poke.i_hp <= 0):
                        def_poke.i_hp = 0
                        def_poke.b_fainted = True
                        i_dmg -= def_poke.i_hp

                    # send updated pokes
                    self.send_players_pokes()

                    # recoil damage

                    i_recoil_dmg = cur_move.get_recoil_ratio() * i_dmg

                    if cur_move.str_name == "struggle":
                        i_recoil_dmg = atk_poke.get_usable_stats().i_hp * 1 / 4
                    if cur_move.str_name == "shadow-end":
                        i_recoil_dmg = atk_poke.i_hp * 1 / 2

                    atk_poke.i_hp -= i_recoil_dmg

                    # is it dead???
                    if (atk_poke.i_hp <= 0):
                        atk_poke.i_hp = 0
                        atk_poke.b_fainted = True

                    # healing health

                    i_heal_hp = cur_move.get_heal_hp(i_dmg, atk_poke)

                    atk_poke.i_hp = min(atk_poke.i_hp + i_heal_hp,
                                        atk_poke.get_usable_stats().i_hp)

                    # send updated pokes
                    self.send_players_pokes()

                    if not def_poke.is_usable():
                        break

                    # implement status effect

                    str_eff = status_effect(atk_poke, def_poke, cur_move,
                                            Field)

                    if str_eff != 'none':
                        self.send_broadcast(def_poke.str_name.capitalize() +
                                            " is " + str_eff + ".")

                    self.send_players_pokes()

                    # implement stat change

                    str_eff = stat_change(atk_poke, def_poke, cur_move)

                    if str_eff != 'none':
                        self.send_broadcast("Its " +
                                            str(atk_poke.get_usable_stats()) +
                                            " stat changed.")

                    self.send_players_pokes()

            else:
                # the move missed
                self.send_broadcast("It missed.")
                self.send_ad_hoc_text(player, "missed")

                i_recoil_dmg = 0

                if cur_move.str_name in ["jump-kick", "high-jump-kick"]:
                    i_recoil_dmg = atk_poke.get_usable_stats().i_hp // 2
                elif cur_move.str_name in ["belly-drum"]:
                    i_recoil_dmg = atk_poke.get_usable_stats().i_hp // 2

                atk_poke.i_hp -= i_recoil_dmg

                # is it dead???
                if (atk_poke.i_hp <= 0):
                    atk_poke.i_hp = 0
                    atk_poke.b_fainted = True

            # make a new line to look more organised
#           self.send_broadcast("")

# send updated pokes
            self.send_players_pokes()

            # the moving poke is dead !?!?
            if not def_poke.is_usable():
                if self.player_poke_fainted(other_player):
                    return
                continue

        # after turn heal / damage
        if self.firstRun == False:
            self.send_broadcast("")

        self.firstRun = False
        for player in l_move_queue:
            atk_poke = player.active_poke
            other_player = self.get_other_player(player)
            def_poke = other_player.active_poke

            if not atk_poke.is_usable():
                continue

            if atk_poke.b_aqua_ring:
                atk_poke.i_hp += int(atk_poke.get_usable_stats().i_hp / 16)

            atk_poke.i_hp = min(atk_poke.i_hp,
                                atk_poke.get_usable_stats().i_hp)

            self.send_players_pokes()

            #atk_poke.i_hp += int(atk_poke.get_usable_stats().i_hp / 13)

            #self.send_broadcast("It regained 7.69230769231% hp.")

            # status effect damage

            if atk_poke.str_status == "burn":
                atk_poke.i_hp -= int(atk_poke.get_usable_stats().i_hp / 16)
                self.send_ad_hoc_text(player, "burn")
            elif atk_poke.str_status == "poison":
                atk_poke.i_hp -= int(atk_poke.get_usable_stats().i_hp / 8)
                self.send_ad_hoc_text(player, "poison")
            elif atk_poke.str_status == "toxic":
                atk_poke.i_hp -= int(atk_poke.get_usable_stats().i_hp / 16 *
                                     atk_poke.i_toxic_idx)
                self.send_ad_hoc_text(player, "toxic")
                atk_poke.i_toxic_idx += 1

            atk_poke.i_hp = min(atk_poke.i_hp,
                                atk_poke.get_usable_stats().i_hp)

            # is it dead???
            if (atk_poke.i_hp <= 0):
                atk_poke.i_hp = 0
                atk_poke.b_fainted = True

            self.send_players_pokes()

            # the moving poke is dead !?!?
            if not atk_poke.is_usable():
                if self.player_poke_fainted(player):
                    return
                continue

            #self.send_delay()

        # check if pokes are dead
        for player in self.l_players:
            atk_poke = player.active_poke
            other_player = self.get_other_player(player)
            def_poke = other_player.active_poke

            if not atk_poke.is_usable():
                if self.player_poke_fainted(player):
                    return
                player.send_data(
                    SELECT_POKE +
                    json.dumps({"availpoke": player.get_available_pokes()}))

        # after turn move reset
        for player in l_move_queue:
            atk_poke = player.active_poke
            other_player = self.get_other_player(player)
            def_poke = other_player.active_poke

            if not atk_poke.is_usable():
                continue

            move_ad_hoc_after_turn(atk_poke, def_poke, self.field, player,
                                   other_player)

        # if a poke is dead, then no turn 4 u
        for player in self.l_players:
            atk_poke = player.active_poke
            if not atk_poke.is_usable():
                return

        if (not self.everyone_ready() or self.b_gameover):
            return

        # send updated info to players
        for player in self.l_players:
            atk_poke = player.active_poke
            other_player = self.get_other_player(player)
            def_poke = other_player.active_poke

            player.i_turn_readiness = NOT_READY
            #player.i_active_move_idx = -1

            #player.send_data(DISPLAY_TEXT + "You selected pokeman number " + str(player.i_active_poke_idx))
            #player.send_data(DISPLAY_TEXT + "Your opponent selected pokeman number " + str(other_player.i_active_poke_idx))

            self.send_players_pokes()

            if atk_poke.is_usable():
                player.send_data(
                    SELECT_POKE_OR_MOVE +
                    json.dumps({
                        "availpoke": player.get_available_pokes(),
                        "availmove": atk_poke.get_move_dic()
                    }))
            elif atk_poke.is_trapped():
                player.send_data(
                    SELECT_MOVE +
                    json.dumps({"availmove": atk_poke.get_move_dic()}))
            else:
                player.send_data(
                    SELECT_POKE +
                    json.dumps({"availpoke": player.get_available_pokes()}))

        return
Ejemplo n.º 8
0
class Agent(object):

    def __init__(self, bzrc):
        self.bzrc = bzrc
        self.field = Field(-400, 400, -400, 400)
        self.field.setupMap4Ls()
        #self.field.setupMapRotatedBoxes()
        self.field.fastCalculate()
        self.constants = self.bzrc.get_constants()
        self.commands = []
        self.prevError = defaultdict(list)
        self.vizualize = True
        self.gotFlag = False
        self.prevLocation = [0, 0]
        self.stuckTimer = time.time()
        self.stuck = False

    def tickAll(self, step):
        '''Some time has passed; decide what to do next'''
        # Get information from the BZRC server
        mytanks, othertanks, flags, shots = self.bzrc.get_lots_o_stuff()
        self.mytanks = mytanks
        self.othertanks = othertanks
        self.flags = flags
        self.shots = shots
        self.enemies = [tank for tank in othertanks if tank.color !=
                self.constants['team']]

        # Reset my set of commands (we don't want to run old commands)
        self.commands = []
        
        # Check to see if the flag has been captured
        for bot in mytanks:
            if not self.gotFlag and bot.flag is not '-':
                self.gotFlag = True
                self.flipFieldToHome()
                
            if self.gotFlag and bot.flag is '-':
                self.gotFlag = False
                self.flipFieldToEnemy()
        
        # Decide what to do with each of my tanks            
        if (time.time() - self.stuckTimer) > 3:
            if bot.x == self.prevLocation[0] and bot.y == self.prevLocation[1]:
                print 'stuck'
                self.stuck = True
            else:
                self.stuck = False
            self.prevLocation = [bot.x, bot.y]
            self.stuckTimer = time.time()
            
        if self.stuck:
            command = Command(bot.index, 1, 1, True)
            self.commands.append(command)
        else:
			for bot in mytanks:
				values = self.calculatePD(bot, step)
				command = Command(bot.index, values[0], values[1], True)
				self.commands.append(command)
            
        # Send the commands to the server
        results = self.bzrc.do_commands(self.commands)
        
    def tickOne(self, step):
        '''Some time has passed; decide what to do next'''
        # Get information from the BZRC server
        mytanks, othertanks, flags, shots = self.bzrc.get_lots_o_stuff()
        self.mytanks = mytanks
        self.othertanks = othertanks
        self.flags = flags
        self.shots = shots
        self.enemies = [tank for tank in othertanks if tank.color !=
                self.constants['team']]

        # Reset my set of commands (we don't want to run old commands)
        self.commands = []

        # Visualize potential field
        if self.vizualize:
            self.field.drawFast(True, True, True)
            self.vizualize = False
            print 'Done with visualization'
        
        # Which tank do you want to control
        bot = mytanks[0]
        #print bot.flag
        
        # Check to see if the flag has been captured
        if not self.gotFlag and bot.flag is not '-':
            print 'set home'
            self.gotFlag = True
            self.flipFieldToHome()
            
        if self.gotFlag and bot.flag is '-':
            self.gotFlag = False
            self.flipFieldToEnemy()
        
        # Decide what to do with one tank of my tanks
        values = self.calculatePD(bot, step)
        
        if (time.time() - self.stuckTimer) > 3:
            if bot.x == self.prevLocation[0] and bot.y == self.prevLocation[1]:
                print 'stuck'
                self.stuck = True
            else:
                self.stuck = False
            self.prevLocation = [bot.x, bot.y]
            self.stuckTimer = time.time()
            
        if self.stuck:
            command = Command(bot.index, 1, 1, True)
            self.commands.append(command)
        else:
            command = Command(bot.index, values[0], values[1], True)
            self.commands.append(command)
            
        # Send the commands to the server
        results = self.bzrc.do_commands(self.commands)

    def calculatePD(self, bot, step):
        # Get the potential field magnitudes in the x and y at the current position
    	pf = self.field.getFast(bot.x, bot.y)
        
        # Tune these or set to zero to manipulate the PD controller
        kProportion = .5
        kDerivative = .002
        
        # Calculate values used in the PD controller formula
        angleReference = numpy.arctan2(pf[1], pf[0])
        angle = angleReference - bot.angle
        errorAtStep =  numpy.arctan2(math.sin(angle),math.cos(angle))                 
        errorPrevStep = 0.0 # Previous error is zero if this is the first calculation.
        
        # Update the previous error to the last saved error if there is one
        if bot.index in self.prevError:
            errorPrevStep = self.prevError[bot.index]
    	
        # This is the PD formula
        angularAtStep = (kProportion * errorAtStep) + (kDerivative * ((errorAtStep - errorPrevStep) / step))
        #print angularAtStep
        if angularAtStep > 1:
            angularAtStep = 1
        if angularAtStep < -1:
            angularAtStep = -1
            
        #print errorAtStep, angularAtStep, pf  
        # Calculates the speed based off the magnitude of the potential field vector
        speedAtStep = 1 - .7 * math.fabs(angularAtStep) #math.sqrt(pf[0]**2 + pf[1]**2)
        #print speedAtStep
        # Save the new error to use in the next iteration
        self.prevError[bot.index] = errorAtStep
                              
        return [speedAtStep, angularAtStep]
    
    def flipFieldToHome(self):
        self.field.goToHome(True)
        #self.field.drawFast(True, True, True)
        
    def flipFieldToEnemy(self):
        self.field.goToHome(False)
Ejemplo n.º 9
0
poke1.base_stats.i_spd = 236
poke1.base_stats.i_spe = 259
poke1.usable_stats = poke1.base_stats
poke1.type_1 = Type("psychic")
poke1.type_2 = None
poke1.str_ability = "contrary"
#poke1.str_status = 'burn'

poke2 = Pokeman()
poke2.base_stats.i_atk = 212
poke2.base_stats.i_def = 236
poke2.base_stats.i_hp = 341
poke2.base_stats.i_spa = 236
poke2.base_stats.i_spd = 236
poke2.base_stats.i_spe = 259
poke2.usable_stats = poke2.base_stats
poke2.type_1 = Type("psychic")
poke2.type_2 = None
poke2.str_ability = "competitive"
move = Move("feather-dance")

field = Field()
#field.terrain = Terrain.ELECTRIC

print(attack(poke1, poke2, move, field))
print(str_prv_mov)

#move = Move("surf")
#print(attack(poke2, poke1, move, field))
#print(str_prv_mov)
Ejemplo n.º 10
0
        print(np_action)
            #act_value = self.model.predict(np_action)
            #if act_value > max_act_value:
            #    best_actions = [a,]
            #    max_act_value = act_value
            #elif act_value == max_act_value:
            #    best_actions.append(a)
        #return random.choice(best_actions)


size = 10
barriar_rate = 0.1

maze_1 = Maze(size, barriar_rate)
maze, start_point, goal_point = maze_1.generate_maze()
maze_field = Field(maze, start_point, goal_point)

maze_field.display()
print("start end point")
print(start_point, goal_point)

action = maze_field.get_actions(state=start_point)
print("action")
print(action)

#myAgent = AgentClass(2,3)
state = np.array(start_point)

#print(state)
print("state, action 0")
print(np.array( [[state,action[0]]] ) )