Esempio n. 1
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 def Run(self):
     self.DT = Libtcod.sys_get_last_frame_length()
     if self.State == "Start":
         if not self.Start.Instant:
             self.Start.Duration -= self.DT
         else:
             self.State = "Middle"
             return True
         if self.Start.Duration <= 0:
             self.State = "Middle"
             self.Middle.Duration += self.Start.Duration
             return True
         return True
     if self.State == "Middle":
         # Needs expanding to run event functions:
         self.Middle.Duration -= Libtcod.sys_get_last_frame_length()
         if self.OnEnd:
             if self.Middle.Duration <= 0:
                 self.Function(self, *self.Parameters)
                 self.State = "End"
                 return True
         else:
             self.DT = Libtcod.sys_get_last_frame_length()
             self.Function(self, *self.Parameters)
             if self.Middle.Duration <= 0:
                 self.State = "End"
                 return True
                 dt = 1
             return True
         return False
     if self.State == "End":
         if not self.End.Instant:  # not instant
             self.End.Duration -= self.DT
         else:
             if not self.Unique:
                 if self.Stacked and self.Stack > 0:
                     self.Stack -= 1
                     self.Start.Duration = self.Start.MaxDuration
                     self.Middle.Duration = self.Middle.MaxDuration
                     self.End.Duration = self.End.MaxDuration
                     self.State = "Start"
                     return True
             self.State = "Finished"
             return True
         if self.End.Duration <= 0:
             if not self.Unique:
                 if self.Stacked and self.Stack > 0:
                     self.Stack -= 1
                     self.Start.Duration = self.Start.MaxDuration + self.End.Duration
                     self.Middle.Duration = self.Middle.MaxDuration
                     self.End.Duration = self.End.MaxDuration
                     self.State = "Start"
                     return True
                 else:
                     self.State = "Finished"
                     return True
             self.State = "Finished"
         return True
     else:
         return False
Esempio n. 2
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def test_sys_time(console):
    libtcodpy.sys_set_fps(0)
    libtcodpy.sys_get_fps()
    libtcodpy.sys_get_last_frame_length()
    libtcodpy.sys_sleep_milli(0)
    libtcodpy.sys_elapsed_milli()
    libtcodpy.sys_elapsed_seconds()
Esempio n. 3
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 def Run(self):
     self.DT = Libtcod.sys_get_last_frame_length()
     if self.State == "Start":
         if not self.Start.Instant:
             self.Start.Duration -= self.DT
         else:
             self.State = "Middle"
             return True
         if self.Start.Duration <= 0:
             self.State = "Middle"
             self.Middle.Duration += self.Start.Duration
             return True
         return True
     if self.State == "Middle":
         # Needs expanding to run event functions:
         self.Middle.Duration -= Libtcod.sys_get_last_frame_length()
         if self.OnEnd:
             if self.Middle.Duration <= 0:
                 self.Function(self, *self.Parameters)
                 self.State = "End"
                 return True
         else:
             self.DT = Libtcod.sys_get_last_frame_length()
             self.Function(self, *self.Parameters)
             if self.Middle.Duration <= 0:
                 self.State = "End"
                 return True
                 dt = 1
             return True
         return False
     if self.State == "End":
         if not self.End.Instant:  # not instant
             self.End.Duration -= self.DT
         else:
             if not self.Unique:
                 if self.Stacked and self.Stack > 0:
                     self.Stack -= 1
                     self.Start.Duration = self.Start.MaxDuration
                     self.Middle.Duration = self.Middle.MaxDuration
                     self.End.Duration = self.End.MaxDuration
                     self.State = "Start"
                     return True
             self.State = "Finished"
             return True
         if self.End.Duration <= 0:
             if not self.Unique:
                 if self.Stacked and self.Stack > 0:
                     self.Stack -= 1
                     self.Start.Duration = self.Start.MaxDuration + self.End.Duration
                     self.Middle.Duration = self.Middle.MaxDuration
                     self.End.Duration = self.End.MaxDuration
                     self.State = "Start"
                     return True
                 else:
                     self.State = "Finished"
                     return True
             self.State = "Finished"
         return True
     else:
         return False
Esempio n. 4
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    def handle_keys(self):
        key = libtcod.console_check_for_keypress()  #real-time

        is_char = (key.vk == libtcod.KEY_CHAR)
        is_space = (key.vk == libtcod.KEY_SPACE)

        if is_char or is_space:
            letter = (chr(key.c) if key.c else key.vk)
            return letter

#        if key.vk == libtcod.KEY_ENTER and key.lalt:
#            libtcod.console_set_fullscreen(not libtcod.console_is_fullscreen())
        if key.vk == libtcod.KEY_ESCAPE:
            return "quit game"
        elif key.vk == libtcod.KEY_TAB:
            print libtcod.sys_get_last_frame_length()
        elif key.vk == libtcod.KEY_ENTER:
            return "test word"
        elif key.vk == libtcod.KEY_RIGHT:
            return "switch context"
Esempio n. 5
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def play_game():
    global key, mouse, player_turn

    mouse = libtcod.Mouse()
    key = libtcod.Key()

    start_time = libtcod.sys_elapsed_seconds()
    while not libtcod.console_is_window_closed():

        libtcod.sys_check_for_event(libtcod.EVENT_KEY_PRESS | libtcod.EVENT_MOUSE, key, mouse)

        delta_time = libtcod.sys_get_last_frame_length()
        #render the screen
        if not local:

            ##Clear the characters from screen.
            for object_ in R.world_obj:
                object_.clear(cam_x, cam_y)

            for city in cities:
                for merchant in city.trade_house.caravans_out:
                    merchant.clear(cam_x, cam_y)

            #handles the keys and exit if needed.
            player_action = handle_keys()
            if player_action == "exit":
                save_game()
                break
            if not pause:  #and not player_turn:
                advance_time()
                #player_turn = True

            handle_mouse()
            render_all()

        else:

            #            for object_ in R.locale_obj:
            #                object_.clear(cam_x,cam_y)
            #
            #            you.clear(cam_x, cam_y)

            #handles the keys and exit if needed.
            player_action = handle_keys()
            if player_action == "exit":
                save_game()
                break

            handle_mouse()
            render_local()

        if R.msg_redraw == True:
            update_msg_bar()
Esempio n. 6
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    def start_new_round(self, winner_of_last_round=None):
        """starts a new round of pong
        says who won, shows a countdown, moves the ball to the center, resets the players
        at the end, wipes the conway sim and resumes play """

        # lets do stuff in an off-screen console, so we can use transparency
        # so the player can see the map
        con = tcod.console_new(self.width, self.height)
        time_elapsed = 0.0  # in seconds
        x = self.width / 2
        tcod.console_set_alignment(con, tcod.CENTER)
        while self.alive and not tcod.console_is_window_closed() and \
                time_elapsed < 3.0:
            y = self.height / 2
            if winner_of_last_round:
                tcod.console_set_default_foreground(con,
                                                    winner_of_last_round.color)
                player_num = self.players.index(winner_of_last_round) + 1
                string = "Player %d scores!" % player_num
                height = tcod.console_get_height_rect(con, x, y, self.width,
                                                      self.height, string)
                tcod.console_print_rect(con, x, y, self.width, height, string)
                y += height
            tcod.console_set_default_foreground(con, tcod.white)

            string = "New round starting in %d seconds..." % int(3 - time_elapsed)
            height = tcod.console_get_height_rect(con, x, y, self.width,
                                                  self.height,  string)
            tcod.console_print_rect(con, x, y, self.width, height, string)

            self.handle_input()
            self.update_conway()
            self.render_all()
            tcod.console_blit(con, 0, 0, 0, 0, 0, 0, 0, 1.0, 0.75)
            tcod.console_flush()
            time_elapsed += tcod.sys_get_last_frame_length()


        # delete tcod console we created
        tcod.console_delete(con)

        #reset the ball
        self.ball = Ball(1, 1)

        #reset the player positions
        for player in self.players:
            player.top = self.height / 2

        # wipe the conway simulation (by creating a new one)
        self.init_map(self.conway.size, self.conway.color)
Esempio n. 7
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def stats():
	libtcod.console_set_default_foreground(None, libtcod.grey)
	
	libtcod.console_print_ex (
		None, 79, 46, libtcod.BKGND_NONE, libtcod.RIGHT,
		'last frame : %3d ms (%3d fps)' %
		(
			int(libtcod.sys_get_last_frame_length() * 1000.0),
			libtcod.sys_get_fps()
		)
	)
	
	libtcod.console_print_ex (
		None, 79, 47, libtcod.BKGND_NONE, libtcod.RIGHT,
		'elapsed : %8d ms %4.2fs' %
		(
			libtcod.sys_elapsed_milli(),
			libtcod.sys_elapsed_seconds()
		)
	)
Esempio n. 8
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def get_last_frame_length():
    return libtcod.sys_get_last_frame_length()
def do_race(key, mouse):
  bottom_viewport_height = 7  
  main_viewport_height = g.screen_height - bottom_viewport_height
  main_viewport_width = g.MAIN_VIEWPORT_WIDTH
  side_viewport_width = g.screen_width - main_viewport_width
  main_viewport = tcod.console_new(main_viewport_width, main_viewport_height)

  bottom_viewport_y = g.screen_height - bottom_viewport_height
  bottom_viewport = tcod.console_new(main_viewport_width, bottom_viewport_height)
  tcod.console_set_alignment(bottom_viewport, tcod.LEFT)

  side_viewport_x = g.screen_width - side_viewport_width  
  side_viewport = tcod.console_new(side_viewport_width, g.screen_height)

  intro_w = int(g.screen_width * .35)
  intro_h = int(g.screen_height * .20)
  intro_x = int(g.screen_width * 0.5 - intro_w * 0.5)
  intro_y = int(g.screen_height * 0.5 - intro_h * 0.5)
  intro_window = tcod.console_new(intro_w, intro_h)
  tcod.console_set_alignment(intro_window, tcod.CENTER)
  tcod.console_set_default_foreground(intro_window, tcod.sea)

  lexicon = lex.genres_lexicons[g.lexicon_counter][0]
  title_and_song = build_song(lexicon)
  race = Race(g.season.teams, g.season.circuits[g.season.current_race], title_and_song[1], title_and_song[0])

  # Reset stuff
  for x in range(0, len(race.teams)):
    race.teams[x].reset()

  teams = race.teams
  player_team_index = 0
  lane_count = len(race.teams)
  track_width = ((race.lane_size + 1) * lane_count) + 1
  BASE_OFFSET_TO_CENTER = int((g.MAIN_VIEWPORT_WIDTH - track_width) / 2)
  for x in range(0, len(teams)):
    if (teams[x].isPlayer):
      player_team_index = x
    teams[x].vehicle.x = BASE_OFFSET_TO_CENTER + (x * (race.lane_size + 1)) + 2

  exit_game = False
  lyrics = race.lyrics
  vehicles_collided = set([])
  active_lyrics_character = 0
  keypress_timer = 99999
  race_finished = False
  race_started = False
  verse = 0
  song_completed = False
  barricade_locations = [] # holds tuples of x, y barricade locations
  intro_lines = get_race_intro(title_and_song[0], lexicon, race.circuit)
  current_intro_line = 0
  first_frame = True
  time_elapsed_last_frame = 0
  race_start_time = tcod.sys_elapsed_seconds()
  while not race_finished and not exit_game:
    tcod.sys_check_for_event(tcod.EVENT_KEY_PRESS, key, mouse)
    keypress_timer += tcod.sys_get_last_frame_length()
    total_time_elapsed = tcod.sys_elapsed_seconds()
        
    if race_started:
      if not first_frame:
        time_elapsed_last_frame = tcod.sys_get_last_frame_length()
      for team in teams:
        team.ai_run_counters()
        # Apply collision physics if needed
        if team.vehicle in vehicles_collided:
          handle_post_collision(team)

        else:
          if team.vehicle.distance_traveled >= len(race.circuit.track_shape) and not team.finished_current_race:
            finish_race(race, team, total_time_elapsed - race_start_time)

          # Control player vehicle
          if team.isPlayer and not team.finished_current_race:
            action = handle_keys(key)
            pressed_key_char = action.get('key_char')
            steer = action.get('steer')
            exit = action.get('exit')
            if not song_completed:
              powerpct = g.get_powerpct_from_keyspeed(keypress_timer)
            else:
              powerpct = 1
            team.vehicle.apply_power(powerpct)

            if pressed_key_char and not song_completed:
              correct = check_key_char_input(pressed_key_char, race.lyrics[verse], active_lyrics_character)
              if correct:
                keypress_timer = 0.0
                active_lyrics_character += 1
                if (active_lyrics_character >= len(lyrics[verse])):
                  active_lyrics_character = 0
                  verse += 1
                  if verse >= len(lyrics):
                    song_completed = True

              else:
                # TODO: mis-steer
                pass

            if steer and team.vehicle.speed > 0: # Can only steer if moving
              teams[player_team_index].vehicle.x += steer
            
            if exit:
              exit_game = True

          # If team is not player
          elif not team.finished_current_race:
            direction = team.ai_determine_direction()
            if direction == td.LEFT:
              team.vehicle.x += -1
            elif direction == td.RIGHT:
              team.vehicle.x += 1
            team.ai_apply_power()

          # If team has reached the finish line
          else:
            team.vehicle.apply_power(0)
            # Don't have time to do proper checks to wait for all teams to
            # finsh race. For now, just wait until the player team's vehicle
            # has coasted to a stop, and then take everyone's place from that
            # moment.
            if team.isPlayer and team.vehicle.speed == 0:
              race_finished = True

        # Apply acceleration, determine speed
        speed_to_add = time_elapsed_last_frame * team.vehicle.acceleration
        team.vehicle.speed += speed_to_add
        if team.vehicle.speed > team.vehicle.current_max_speed_from_power:
          team.vehicle.speed -= 0.1
        if team.vehicle.speed > team.vehicle.max_speed:
          team.vehicle.speed = team.vehicle.max_speed
        elif team.vehicle.speed < 0:
          team.vehicle.speed = 0
        distance_traveled_this_frame = time_elapsed_last_frame * team.vehicle.speed

        team.ai_observe_curves(race.circuit.track_layout, int(team.vehicle.distance_traveled + distance_traveled_this_frame) - int(team.vehicle.distance_traveled)) # This HAS to come first
        team.vehicle.distance_traveled += distance_traveled_this_frame
        

      # Check for collisions
      vehicles_collided.clear()
      handle_collisions(race, vehicles_collided, barricade_locations)

      first_frame = False

    # Render
    tcod.console_clear(main_viewport)
    print_race(main_viewport, race, int(teams[player_team_index].vehicle.y), int(teams[player_team_index].vehicle.distance_traveled), barricade_locations)
    tcod.console_blit(main_viewport, 0, 0, g.screen_width, g.screen_height, 0, 0, 0,)

    tcod.console_clear(bottom_viewport)
    if not song_completed:
      print_lyrics(bottom_viewport, race.lyrics[verse], active_lyrics_character)
    tcod.console_blit(bottom_viewport, 0, 0, main_viewport_width, bottom_viewport_height, 0, 0, bottom_viewport_y)

    tcod.console_clear(side_viewport)
    print_panel_side(side_viewport, build_race_stats(race), side_viewport_width)
    tcod.console_blit(side_viewport, 0, 0, side_viewport_width, g.screen_height - bottom_viewport_height, 0, side_viewport_x, 0)

    if not race_started:
      # This structure is pretty ugly, but no time to clean it up
      if current_intro_line == len(intro_lines):
        time.sleep(intro_lines[current_intro_line - 1][1])
      elif current_intro_line >= len(intro_lines):
        race_started = True
      else:
        tcod.console_clear(intro_window)
        tcod.console_hline(intro_window, 0, 0, intro_w)
        tcod.console_hline(intro_window, 0, intro_h - 1, intro_w)
        tcod.console_vline(intro_window, 0, 0, intro_h)
        tcod.console_vline(intro_window, intro_w - 1, 0, intro_h)
        tcod.console_print_rect_ex(intro_window, int(intro_w/2), 1, intro_w - 3, intro_h - 2, tcod.BKGND_SET, tcod.CENTER, intro_lines[current_intro_line][0])
        tcod.console_blit(intro_window, 0, 0, intro_w, intro_h, 0, intro_x, intro_y)
        if current_intro_line > 0:
          time.sleep(intro_lines[current_intro_line - 1][1])
      current_intro_line += 1

    tcod.console_flush()

  # Race is finished
  if exit_game:
    tcod.console_clear(main_viewport)
    tcod.console_blit(main_viewport, 0, 0, g.screen_width, g.screen_height, 0, 0, 0,)
    tcod.console_clear(bottom_viewport)
    tcod.console_blit(bottom_viewport, 0, 0, main_viewport_width, bottom_viewport_height, 0, 0, bottom_viewport_y)
    tcod.console_flush()
    g.context = Context.MAIN_MENU
  else:
    final_stats = build_race_stats(race)
    place = 1
    for stat in final_stats:
      race.places[place] = stat.team
      place += 1
    g.season.races.append(race)
    g.lexicon_counter += 1
    if g.lexicon_counter >= len(lex.genres_lexicons):
      g.lexicon_counter = 0
    g.context = Context.POST_RACE
Esempio n. 10
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import libtcodpy as libtcod
from logic.menu_main import MenuMain
from logic.menu_manager import MenuManager

screen_width = 75
screen_height = 75
limit_fps = 30

menu_manager = MenuManager(MenuMain(screen_width, screen_height))

libtcod.console_disable_keyboard_repeat()

libtcod.console_set_custom_font('cp437_10x10.png', libtcod.FONT_TYPE_GREYSCALE | libtcod.FONT_LAYOUT_ASCII_INROW)
libtcod.console_init_root(screen_width, screen_height, 'RogueP pre-dev', False)
libtcod.sys_set_fps(limit_fps)

while not libtcod.console_is_window_closed():
	#behavior_manager.update_behaviors(entities)
	if not menu_manager.loop(round(libtcod.sys_get_last_frame_length()*1000)):
		break