def spawnCrab(self):
     '''Create a new crab within the spawn_rect'''
     new_crab = Crab(self)
     x = random.randint(self.spawn_rect.left, (self.spawn_rect.right - new_crab.rect.width))
     y = random.randint(self.spawn_rect.top, (self.spawn_rect.bottom - new_crab.rect.height))
     new_crab.setLocation(x, y)
     self.crab_group.add(new_crab)
Beispiel #2
0
def crabAction(options, action = None):

    options = parseOptions(options)

    crab = Crab()
    result = None
    try:
        crab.initialize_(options)
        crab.run()
        if action: result = action(crab)
        del crab
        print 'Log file is %s%s.log'%(common.work_space.logDir(),common.prog_name) 
    except CrabException, e:
        del crab
        #print '\n' + common.prog_name + ': ' + str(e) + '\n' 
        raise
Beispiel #3
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def crabActionCRAB251(options, action = None):

    options = parseOptions(options)

    result = None
    try:
        crab = Crab(options)
        crab.run()
        common.apmon.free()
        if action: result = action(crab)
        del crab
        #print 'Log file is %s%s.log'%(common.work_space.logDir(),common.prog_name)  
        #print '\n##############################  E N D  ####################################\n'
    except CrabException, e:
        print '\n' + common.prog_name + ': ' + str(e) + '\n'
        pass
Beispiel #4
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def crabActionCRAB251(options, action=None):

    options = parseOptions(options)

    result = None
    try:
        crab = Crab(options)
        crab.run()
        common.apmon.free()
        if action: result = action(crab)
        del crab
        #print 'Log file is %s%s.log'%(common.work_space.logDir(),common.prog_name)
        #print '\n##############################  E N D  ####################################\n'
    except CrabException, e:
        print '\n' + common.prog_name + ': ' + str(e) + '\n'
        pass
Beispiel #5
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    def __init__(self, setting: settings, shoot_sound):
        self.shoot_sound = shoot_sound
        self.fleet = list()
        self.move_speed = setting.alien_speed
        self.creep_speed = setting.creep_speed
        self.gun = Gun(setting)
        self.setting = setting
        self.saucer = Saucer(setting, Vector2(-64, 64 * 2))

        for i in range(10):
            self.fleet.append(Squid(setting, pygame.Vector2(70 * i, 70)))
        for i in range(10):
            self.fleet.append(Squid(setting, pygame.Vector2(70 * i, 70 * 2)))
        for i in range(10):
            self.fleet.append(Jelly(setting, pygame.Vector2(70 * i, 70 * 3)))
        for i in range(10):
            self.fleet.append(Jelly(setting, pygame.Vector2(70 * i, 70 * 4)))
        for i in range(10):
            self.fleet.append(Crab(setting, pygame.Vector2(70 * i, 70 * 5)))
        for i in range(10):
            self.fleet.append(Crab(setting, pygame.Vector2(70 * i, 70 * 6)))
Beispiel #6
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 def gen_sprites(self):
     self.sprite_models.append(
         Crab(
             self.setting,
             Vector2(self.screen_dim.x / 2 - 128,
                     self.screen_dim.y / 10 * 3)))
     self.sprite_models.append(
         Jelly(
             self.setting,
             Vector2(self.screen_dim.x / 2 - 128,
                     self.screen_dim.y / 10 * 4)))
     self.sprite_models.append(
         Squid(
             self.setting,
             Vector2(self.screen_dim.x / 2 - 128,
                     self.screen_dim.y / 10 * 5)))
     self.sprite_models.append(
         Saucer(
             self.setting,
             Vector2(self.screen_dim.x / 2 - 128,
                     self.screen_dim.y / 10 * 6)))
Beispiel #7
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def crabAction(options, action = None):

    options = parseOptions(options)

    crab = Crab()
    result = None
    try:
        crab.initialize_(options)
        crab.run()
        if action: result = action(crab)
        del crab
        print 'Log file is %s%s.log'%(common.work_space.logDir(),common.prog_name) 
    except CrabException, e:
        del crab
        #print '\n' + common.prog_name + ': ' + str(e) + '\n' 
        raise
Beispiel #8
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    def saveButtonClicked(self):
        # TODO later figure out how this will talk to Chloe's algorithm and update these values
        if self.sex_drop_down.currentIndex() == 0 or self.species_drop_down.currentIndex() == 0 or self.color_drop_down.currentIndex() == 0 or\
           self.damage_drop_down.currentIndex() == 0 or self.epibiont_drop_down.currentIndex() == 0 or self.molt_drop_down.currentIndex() == 0:
            msg = QtGui.QMessageBox()
            msg.setIcon(QtGui.QMessageBox.Information)
            msg.setText("All dropdowns must have a valid selection!")
            msg.setWindowTitle("Dropdowns Invalid")
            msg.setStandardButtons(QtGui.QMessageBox.Ok)

            retval = msg.exec_()
        else:
            new_crab = Crab(self.uid_text_field.text(),
                            self.sex_drop_down.currentText(),
                            self.species_drop_down.currentText(),
                            self.color_drop_down.currentText(),
                            self.damage_drop_down.currentText(),
                            float(self.carapace_width_field.text()),
                            float(self.mass_field.text()),
                            self.epibiont_drop_down.currentText(),
                            self.molt_drop_down.currentText())
            insert_crab(new_crab)
            self.close()
Beispiel #9
0
    def __init__(self):
        self.running = True
        self.start = time.time()
        self.score = 0

        self.screen = pygame.display.set_mode(
            (IMAGE_WIDTH * ROW_LENGTH, IMAGE_HEIGHT * ROW_LENGTH))
        self.background = Player(
            str(Path("./data/images/beach.jpg")),
            (IMAGE_WIDTH * ROW_LENGTH, IMAGE_HEIGHT * ROW_LENGTH))
        self.player = Crab(
            str(
                Path(
                    "./data/images/crab_images/Crab Standing Animation/crab_standing_still0.png"
                )), (35, 35), (280, 300))

        self.pebbles = []
        self.jellyfish = []
        self.squids = []
        self.stalkers = []
        self.inks = []
        self.littlefish = []
        self.vignette = None

        self.end_screen = Player(str(Path("./data/images/endgame.png")),
                                 (700, 450), (-70, 0))
        # self.gulls = [Seagull(str(Path("./data/images/seagull.png")), (72, 44), self.background),
        #               Seagull(str(Path("./data/images/seagull.png")), (72, 44), self.background),
        #               Seagull(str(Path("./data/images/seagull.png")), (72, 44), self.background)]
        self.h_bars = [
            Player(str(Path("./data/images/health0.png")), (216, 134),
                   (10, -30)),
            Player(str(Path("./data/images/health1.png")), (216, 134),
                   (10, -30)),
            Player(str(Path("./data/images/health2.png")), (216, 134),
                   (10, -30)),
            Player(str(Path("./data/images/health3.png")), (216, 134),
                   (10, -30)),
            Player(str(Path("./data/images/health4.png")), (216, 134),
                   (10, -30)),
            Player(str(Path("./data/images/health5.png")), (216, 134),
                   (10, -30)),
            Player(str(Path("./data/images/health6.png")), (216, 134),
                   (10, -30)),
            Player(str(Path("./data/images/health7.png")), (216, 134),
                   (10, -30)),
            Player(str(Path("./data/images/health8.png")), (216, 134),
                   (10, -30))
        ]

        self.moves = {
            "up": (0, -self.player.speed),
            "left": (-self.player.speed, 0),
            "down": (0, self.player.speed),
            "right": (self.player.speed, 0)
        }
        self._moves = self.moves.copy()

        pygame.init()
        pygame.display.init()
        pygame.font.init()

        self.score_font = pygame.font.Font('freesansbold.ttf', 30)
        self.symptom_font = pygame.font.Font('freesansbold.ttf', 15)

        pygame.mixer.init()
        pygame.mixer.music.set_volume(0.7)
        pygame.mixer.music.load("./data/music/Passport.mp3")
        pygame.mixer.music.play(-1)
Beispiel #10
0
class GameView:
    def __init__(self):
        self.running = True
        self.start = time.time()
        self.score = 0

        self.screen = pygame.display.set_mode(
            (IMAGE_WIDTH * ROW_LENGTH, IMAGE_HEIGHT * ROW_LENGTH))
        self.background = Player(
            str(Path("./data/images/beach.jpg")),
            (IMAGE_WIDTH * ROW_LENGTH, IMAGE_HEIGHT * ROW_LENGTH))
        self.player = Crab(
            str(
                Path(
                    "./data/images/crab_images/Crab Standing Animation/crab_standing_still0.png"
                )), (35, 35), (280, 300))

        self.pebbles = []
        self.jellyfish = []
        self.squids = []
        self.stalkers = []
        self.inks = []
        self.littlefish = []
        self.vignette = None

        self.end_screen = Player(str(Path("./data/images/endgame.png")),
                                 (700, 450), (-70, 0))
        # self.gulls = [Seagull(str(Path("./data/images/seagull.png")), (72, 44), self.background),
        #               Seagull(str(Path("./data/images/seagull.png")), (72, 44), self.background),
        #               Seagull(str(Path("./data/images/seagull.png")), (72, 44), self.background)]
        self.h_bars = [
            Player(str(Path("./data/images/health0.png")), (216, 134),
                   (10, -30)),
            Player(str(Path("./data/images/health1.png")), (216, 134),
                   (10, -30)),
            Player(str(Path("./data/images/health2.png")), (216, 134),
                   (10, -30)),
            Player(str(Path("./data/images/health3.png")), (216, 134),
                   (10, -30)),
            Player(str(Path("./data/images/health4.png")), (216, 134),
                   (10, -30)),
            Player(str(Path("./data/images/health5.png")), (216, 134),
                   (10, -30)),
            Player(str(Path("./data/images/health6.png")), (216, 134),
                   (10, -30)),
            Player(str(Path("./data/images/health7.png")), (216, 134),
                   (10, -30)),
            Player(str(Path("./data/images/health8.png")), (216, 134),
                   (10, -30))
        ]

        self.moves = {
            "up": (0, -self.player.speed),
            "left": (-self.player.speed, 0),
            "down": (0, self.player.speed),
            "right": (self.player.speed, 0)
        }
        self._moves = self.moves.copy()

        pygame.init()
        pygame.display.init()
        pygame.font.init()

        self.score_font = pygame.font.Font('freesansbold.ttf', 30)
        self.symptom_font = pygame.font.Font('freesansbold.ttf', 15)

        pygame.mixer.init()
        pygame.mixer.music.set_volume(0.7)
        pygame.mixer.music.load("./data/music/Passport.mp3")
        pygame.mixer.music.play(-1)

    def run(self):
        """initializes, executes, and quits the pygame"""
        clock = pygame.time.Clock()

        while self.running:
            clock.tick(60)
            self._handle_events()
            self._display_board()
            self.score += time.time() - self.start - self.score
        pygame.quit()

    def _display_board(self):
        """displays the board when it changes"""
        self.screen.fill(pygame.Color(0, 0, 0))
        # self.screen.blit(self.background.img, self.background.rect)
        map_generator.loadLevel(self.screen, 'level1.txt')
        # for gull in self.gulls:
        #    self.screen.blit(gull.img, gull.rect)
        if self.player.health < 0:
            return

        for pebble in self.pebbles:
            self.screen.blit(Pebble.img, pebble.location)
            pebble.update()
            for jelly in self.jellyfish:
                if pebble.rect.colliderect(jelly.rect):
                    jelly.health -= 1
                    if jelly.health == 0:
                        self.jellyfish.remove(jelly)
                    if pebble in self.pebbles:
                        self.pebbles.remove(pebble)
            for stalker in self.stalkers:
                if pebble.rect.colliderect(stalker.rect):
                    stalker.health -= 1
                    if stalker.health == 0:
                        self.stalkers.remove(stalker)
                    if pebble in self.pebbles:
                        self.pebbles.remove(pebble)

            for squid in self.squids:
                if pebble.rect.colliderect(squid.rect):
                    squid.health -= 1
                    if squid.health == 0:
                        self.squids.remove(squid)
                    if pebble in self.pebbles:
                        self.pebbles.remove(pebble)

        l_lst = []
        for fish in self.littlefish.copy():
            self.screen.blit(fish.image, fish._location)
            var = fish.update()
            if var:
                l_lst.append(var)

        self.littlefish = l_lst

        for jelly in self.jellyfish:
            self.screen.blit(jelly.image, jelly._location)
            jelly.update()
            if jelly.rect.colliderect(self.player.rect):
                self.player.health -= 10
                self.jellyfish.remove(jelly)

        for stalker in self.stalkers:
            self.screen.blit(stalker.image, stalker._location)
            stalker.update(
                (self.player.get_location()[0] - stalker._location[0],
                 self.player.get_location()[1] - stalker._location[1]))
            if stalker.rect.colliderect(self.player.rect):
                self.player.health -= 10
                self.stalkers.remove(stalker)

        for squid in self.squids:
            self.screen.blit(squid.image, squid._location)
            squid.update((self.player.get_location()[0] - squid._location[0],
                          self.player.get_location()[1] - squid._location[1]))
            if pygame.time.get_ticks() % 50 == 0:
                self.squid_shoot(squid)
            if squid.rect.colliderect(self.player.rect):
                self.player.health -= 10
                self.squids.remove(squid)

        for ink in self.inks:
            self.screen.blit(Ink.img, ink.location)
            ink.update()
            if ink.rect.colliderect(self.player.rect):
                self.player.health -= 10
                self.inks.remove(ink)

        if self.player.health > 0:
            self.player.update()
            self.screen.blit(self.player.img, self.player.rect)
        else:
            self.screen.blit(self.end_screen.img, self.end_screen.rect)

        if self.vignette is not None:
            self.screen.blit(self.vignette, (0, 0))

        if self.player.health > 0:
            self.screen.blit(self.h_bars[int(self.player.health / 10)].img,
                             self.h_bars[int(self.player.health / 10)].rect)
            self.screen.blit(
                self.score_font.render(f"Score: {int(self.score)}", True,
                                       (255, 0, 0)), (425, 35))
            if self.player.symptoms["loss-of-balance"]["status"]:
                self.screen.blit(
                    self.symptom_font.render(
                        "{:20}".format("randomized controls"), True,
                        (255, 0, 0)), (30, 565))
            if self.player.symptoms["fatigue"]["status"]:
                self.screen.blit(
                    self.symptom_font.render("{:20}".format("fatigued"), True,
                                             (255, 0, 0)), (30, 535))
            if self.player.symptoms["vision"]["status"]:
                self.screen.blit(
                    self.symptom_font.render("{:20}".format("loss of vision"),
                                             True, (255, 0, 0)), (30, 505))
        else:
            self.screen.blit(self.h_bars[0].img, self.h_bars[0].rect)
            self.screen.blit(
                self.score_font.render(f"Final Score: {int(self.score)}", True,
                                       (255, 0, 0)), (200, 400))
        pygame.display.flip()

    def _handle_events(self):
        for event in pygame.event.get():
            if event.type == pygame.QUIT:
                self.running = False

        global INVERSE_SPEED, SPAWN_RATE

        if pygame.time.get_ticks() % 1500 == 0:
            SPAWN_RATE += 0.001

        if pygame.time.get_ticks() % (INVERSE_SPEED + 5) in (0, 1, 2, 3):
            self.player_shoot(pygame.mouse.get_pos())

        mouse_buttons = pygame.mouse.get_pressed()
        keys = pygame.key.get_pressed()
        if self.player.health > 0:
            if keys[pygame.K_w] or keys[pygame.K_UP]:
                self._move("up")
            if keys[pygame.K_a] or keys[pygame.K_LEFT]:
                self._move("left")
            if keys[pygame.K_s] or keys[pygame.K_DOWN]:
                self._move("down")
            if keys[pygame.K_d] or keys[pygame.K_RIGHT]:
                self._move("right")
            if mouse_buttons[0]:
                if pygame.time.get_ticks() % INVERSE_SPEED in (0, 1):
                    self.player_shoot(pygame.mouse.get_pos())
        else:
            if keys[pygame.K_r]:
                self.__init__()
                pygame.mixer.music.load("./data/music/Passport.mp3")
                pygame.mixer.music.play()
                map_generator.default_x_coord = map_generator.DEFAULT_STARTING_X_COORD
                map_generator.default_y_coord = map_generator.DEFAULT_STARTING_Y_COORD

        self.spawn_jellyfish()
        self.spawn_stalker()
        self.spawn_squid()
        self.spawn_littlefish()

    def spawn_jellyfish(self):
        spawn_location = (int(random() * IMAGE_WIDTH * ROW_LENGTH),
                          int(random() * IMAGE_HEIGHT * ROW_LENGTH))
        if random() <= SPAWN_RATE * 1.1 and math.sqrt(
            ((self.player.get_location()[0] - spawn_location[0])**2) +
            (self.player.get_location()[1] - spawn_location[1])**2) >= 30:
            self.jellyfish.append(Jellyfish((40, 40), spawn_location))

    def spawn_littlefish(self):
        if random() <= SPAWN_RATE * 0.1:
            self.littlefish.append(
                LittleFish(self.player,
                           (int(random() * IMAGE_WIDTH * ROW_LENGTH),
                            int(random() * IMAGE_HEIGHT * ROW_LENGTH))))

    def spawn_stalker(self):
        spawn_location = (int(random() * IMAGE_WIDTH * ROW_LENGTH),
                          int(random() * IMAGE_HEIGHT * ROW_LENGTH))
        if random() <= SPAWN_RATE * 1.1 and math.sqrt(
            ((self.player.get_location()[0] - spawn_location[0])**2) +
            (self.player.get_location()[1] - spawn_location[1])**2) >= 60:
            self.stalkers.append(Stalker((40, 40), spawn_location))

    def spawn_squid(self):
        spawn_location = (int(random() * IMAGE_WIDTH * ROW_LENGTH),
                          int(random() * IMAGE_HEIGHT * ROW_LENGTH))
        if random() <= SPAWN_RATE * 1.2 and math.sqrt(
            ((self.player.get_location()[0] - spawn_location[0])**2) +
            (self.player.get_location()[1] - spawn_location[1])**2) >= 50:
            self.squids.append(Squid((40, 40), spawn_location))

    def player_shoot(self, mouse_click):
        vector_direction = (mouse_click[0] - self.player.get_location()[0],
                            mouse_click[1] - self.player.get_location()[1])
        if vector_direction != (0, 0):
            self.pebbles.append(
                Pebble(vector_direction, self.player.get_location()))

    def squid_shoot(self, squid):
        vector_direction = pygame.math.Vector2(
            squid.vector_direction).normalize()
        if vector_direction != (0, 0):
            self.inks.append(Ink(vector_direction, squid._location))

    def _handle_symptoms(self):
        if random() > 0.99:
            random_symptom = choice(["loss-of-balance", "fatigue", "vision"])
            print(f"selected {random_symptom}")
            if not self.player.symptoms[random_symptom]["status"]:
                if random() > .86:
                    self.player.symptoms[random_symptom]["status"] = True
                    print(f"{random_symptom} now active")

    def _move(self, key):
        self._handle_symptoms()
        symptom_cooldown = randint(200, 300)
        for symptom, flag in self.player.symptoms.items():
            if symptom == 'loss-of-balance' and flag["status"]:
                if flag["timer"] == 0:
                    self.moves = dict(
                        zip(
                            sorted(self.moves.keys(), key=lambda x: random()),
                            sorted(self.moves.values(),
                                   key=lambda x: random())))
                    self.player.symptoms[symptom]["timer"] += 1
                elif flag["timer"] > symptom_cooldown:
                    self.moves = self._moves
                    self.player.symptoms[symptom]["status"] = False
                    self.player.symptoms[symptom]["timer"] = 0
                else:
                    self.player.symptoms[symptom]["timer"] += 1

            elif symptom == 'fatigue' and flag["status"]:
                if flag["timer"] == 0:
                    self.player.speed = choices([1, 2, 3], [5, 15, 30])[0] / 4
                    self.moves = {
                        k: tuple(map(lambda x: int(x * self.player.speed), v))
                        for k, v in self.moves.items()
                    }
                    self.player.symptoms[symptom]["timer"] += 2
                elif flag["timer"] > symptom_cooldown:
                    self.player.speed = 4
                    self.player.symptoms[symptom]["status"] = False
                    self.player.symptoms[symptom]["timer"] = 0
                    try:
                        self.moves = {
                            k: tuple(
                                map(lambda x: int(x * self.player.speed / x),
                                    v))
                            for k, v in self.moves.items()
                        }
                    except ZeroDivisionError:
                        self.moves = self._moves.copy()
                else:
                    self.player.symptoms[symptom]["timer"] += 1

            elif symptom == 'vision' and flag["status"]:
                if flag["timer"] == 0:
                    self.vignette = pygame.image.load(
                        str(Path('./data/images/vignette.png')))
                    self.player.symptoms[symptom]["timer"] += 1
                elif flag["timer"] > symptom_cooldown:
                    self.vignette = None
                    pygame.display.flip()
                    self.player.symptoms[symptom]["timer"] = 0
                    self.player.symptoms[symptom]["status"] = False
                else:
                    self.player.symptoms[symptom]["timer"] += 1

        proposed_move = self.player.rect.move(*self.moves[key])
        if (not proposed_move.right > self.background.rect.right
                and not proposed_move.left < self.background.rect.left
                and not proposed_move.top < self.background.rect.top
                and not proposed_move.bottom > self.background.rect.bottom):
            self.player.update_location(self.moves[key])