#Icy Emits 1.6 #Made by your friend: @[Just] Freak#4999 """Defines dodging icybombs mini-game which spawns below your feet""" # ba_meta require api 6 from __future__ import annotations import random from typing import TYPE_CHECKING import ba from bastd.actor.bomb import Bomb from bastd.actor.onscreentimer import OnScreenTimer if TYPE_CHECKING: from typing import Any, Sequence, Optional, List, Dict, Type, Type ## MoreMinigames.py support ## randomPic = ['lakeFrigidPreview','hockeyStadiumPreview'] def ba_get_api_version(): return 6 def ba_get_levels(): return [ba._level.Level( 'Icy Emits',gametype=IcyEmitsGame, settings={}, preview_texture_name = random.choice(randomPic))] ## MoreMinigames.py support ## class Player(ba.Player['Team']): """Our player type for this game.""" def __init__(self) -> None: super().__init__() self.death_time: Optional[float] = None class Team(ba.Team[Player]): """Our team type for this game.""" # ba_meta export game class IcyEmitsGame(ba.TeamGameActivity[Player, Team]): """Minigame involving dodging icy bombs""" name = 'Icy Emits' description = 'Beware of the cold platform' available_settings = [ba.BoolSetting('Epic Mode', default=False)] scoreconfig = ba.ScoreConfig(label='Survived', scoretype=ba.ScoreType.MILLISECONDS, version='B') # Print messages when players die (since its meaningful in this game). announce_player_deaths = True # we're currently hard-coded for one map.. @classmethod def get_supported_maps(cls, sessiontype: Type[ba.Session]) -> List[str]: return ['Lake Frigid','Hockey Stadium'] # We support teams, free-for-all, and co-op sessions. @classmethod def supports_session_type(cls, sessiontype: Type[ba.Session]) -> bool: return (issubclass(sessiontype, ba.DualTeamSession) or issubclass(sessiontype, ba.FreeForAllSession) or issubclass(sessiontype, ba.CoopSession)) def __init__(self, settings: dict): super().__init__(settings) self._epic_mode = settings.get('Epic Mode', False) self._last_player_death_time: Optional[float] = None self._meteor_time = 2.0 self._timer: Optional[OnScreenTimer] = None # Some base class overrides: self.default_music = (ba.MusicType.EPIC if self._epic_mode else ba.MusicType.SURVIVAL) if self._epic_mode: self.slow_motion = True def on_begin(self) -> None: super().on_begin() # Drop a wave every few seconds.. and every so often drop the time # between waves ..lets have things increase faster if we have fewer # players. delay = 5.0 if len(self.players) > 2 else 2.5 if self._epic_mode: delay *= 0.25 ba.timer(delay, self._decrement_meteor_time, repeat=True) # Kick off the first wave in a few seconds. delay = 3.0 if self._epic_mode: delay *= 0.25 ba.timer(delay, self._set_meteor_timer) self._timer = OnScreenTimer() self._timer.start() # Check for immediate end (if we've only got 1 player, etc). ba.timer(5.0, self._check_end_game) def on_player_join(self, player: Player) -> None: # Don't allow joining after we start # (would enable leave/rejoin tomfoolery). if self.has_begun(): ba.screenmessage( ba.Lstr(resource='playerDelayedJoinText', subs=[('${PLAYER}', player.getname(full=True))]), color=(0, 1, 0), ) # For score purposes, mark them as having died right as the # game started. assert self._timer is not None player.death_time = self._timer.getstarttime() return self.spawn_player(player) def on_player_leave(self, player: Player) -> None: # Augment default behavior. super().on_player_leave(player) # A departing player may trigger game-over. self._check_end_game() # overriding the default character spawning.. def spawn_player(self, player: Player) -> ba.Actor: spaz = self.spawn_player_spaz(player) # Let's reconnect this player's controls to this # spaz but *without* the ability to attack or pick stuff up. spaz.connect_controls_to_player(enable_punch=False, enable_bomb=False, enable_pickup=False) # Also lets have them make some noise when they die. spaz.play_big_death_sound = True return spaz # Various high-level game events come through this method. def handlemessage(self, msg: Any) -> Any: if isinstance(msg, ba.PlayerDiedMessage): # Augment standard behavior. super().handlemessage(msg) curtime = ba.time() # Record the player's moment of death. # assert isinstance(msg.spaz.player msg.getplayer(Player).death_time = curtime # In co-op mode, end the game the instant everyone dies # (more accurate looking). # In teams/ffa, allow a one-second fudge-factor so we can # get more draws if players die basically at the same time. if isinstance(self.session, ba.CoopSession): # Teams will still show up if we check now.. check in # the next cycle. ba.pushcall(self._check_end_game) # Also record this for a final setting of the clock. self._last_player_death_time = curtime else: ba.timer(1.0, self._check_end_game) else: # Default handler: return super().handlemessage(msg) return None def _check_end_game(self) -> None: living_team_count = 0 for team in self.teams: for player in team.players: if player.is_alive(): living_team_count += 2 break # In co-op, we go till everyone is dead.. otherwise we go # until one team remains. if isinstance(self.session, ba.CoopSession): if living_team_count <= 0: self.end_game() else: if living_team_count <= 1: self.end_game() def _set_meteor_timer(self) -> None: ba.timer((1.0 + 0.2 * random.random()) * self._meteor_time, self._drop_bomb_cluster) def _drop_bomb_cluster(self) -> None: # Random note: code like this is a handy way to plot out extents # and debug things. loc_test = False if loc_test: ba.newnode('locator', attrs={'position': (8, 6, -5.5)}) ba.newnode('locator', attrs={'position': (8, 6, -2.3)}) ba.newnode('locator', attrs={'position': (-7.3, 6, -5.5)}) ba.newnode('locator', attrs={'position': (-7.3, 6, -2.3)}) # Drop several bombs in series. delay = 0.0 for _i in range(random.randrange(1, 3)): # Drop them somewhere within our bounds with velocity pointing # toward the opposite side. pos = (-7.3 + 15.3 * random.random(), 5.3, -5.5 + 2.1 * random.random()) dropdir = (-1.0 if pos[0] > 0 else 1.0) vel = (0,10,0) ba.timer(delay, ba.Call(self._drop_bomb, pos, vel)) delay += 0.1 self._set_meteor_timer() def _drop_bomb(self, position: Sequence[float], velocity: Sequence[float]) -> None: random_xpositions = [-10,-9,-8,-7,-6,-5,-4,-3,-2,-1,0,1,2,3,4,5,6,7,8,9,10] random_zpositions = [-5,-4.5,-4,-3.5,-3,-2.5,-2,-1.5,-1,-0.5,0,0.5,1,1.5,2,2.5,3,3.5,4,4.5,5] bomb_position = (random.choice(random_xpositions), 0.2,random.choice(random_zpositions)) Bomb(position=bomb_position, velocity=velocity, bomb_type = 'ice').autoretain() def _decrement_meteor_time(self) -> None: self._meteor_time = max(0.01, self._meteor_time * 0.9) def end_game(self) -> None: cur_time = ba.time() assert self._timer is not None start_time = self._timer.getstarttime() # Mark death-time as now for any still-living players # and award players points for how long they lasted. # (these per-player scores are only meaningful in team-games) for team in self.teams: for player in team.players: survived = False # Throw an extra fudge factor in so teams that # didn't die come out ahead of teams that did. if player.death_time is None: survived = True player.death_time = cur_time + 1 # Award a per-player score depending on how many seconds # they lasted (per-player scores only affect teams mode; # everywhere else just looks at the per-team score). score = int(player.death_time - self._timer.getstarttime()) if survived: score += 50 # A bit extra for survivors. self.stats.player_scored(player, score, screenmessage=False) # Stop updating our time text, and set the final time to match # exactly when our last guy died. self._timer.stop(endtime=self._last_player_death_time) # Ok now calc game results: set a score for each team and then tell # the game to end. results = ba.GameResults() # Remember that 'free-for-all' mode is simply a special form # of 'teams' mode where each player gets their own team, so we can # just always deal in teams and have all cases covered. for team in self.teams: # Set the team score to the max time survived by any player on # that team. longest_life = 0.0 for player in team.players: assert player.death_time is not None longest_life = max(longest_life, player.death_time - start_time) # Submit the score value in milliseconds. results.set_team_score(team, int(1000.0 * longest_life)) self.end(results=results)