import json import logging import math import sqlalchemy import sqlalchemy.sql.functions as sfunc from datetime import timedelta from sqlalchemy.orm import mapper from sqlalchemy.orm import scoped_session from sqlalchemy.orm import sessionmaker from sqlalchemy.ext.declarative import declarative_base from xonstat.elo import KREDUCTION, ELOPARMS from xonstat.util import strip_colors, html_colors, pretty_date log = logging.getLogger(__name__) DBSession = scoped_session(sessionmaker()) Base = declarative_base() # define objects for all tables class Player(object): def nick_html_colors(self): if self.nick is None: return "Anonymous Player" else: return html_colors(self.nick) def nick_strip_colors(self): if self.nick is None: return "Anonymous Player" else: return strip_colors(self.nick) def joined_pretty_date(self): return pretty_date(self.create_dt) def __repr__(self): return "" % (self.player_id, self.nick.encode('utf-8')) def to_dict(self): return {'player_id':self.player_id, 'name':self.nick.encode('utf-8')} class GameType(object): def __repr__(self): return "" % (self.game_type_cd, self.descr, self.active_ind) def to_dict(self): return {'game_type_cd':self.game_type_cd, 'name':self.descr, 'active':self.active_ind} class Weapon(object): def __repr__(self): return "" % (self.weapon_cd, self.descr, self.active_ind) def to_dict(self): return {'weapon_cd':self.weapon_cd, 'name':self.descr, 'active':self.active_ind} class Server(object): def __init__(self, name=None, hashkey=None, ip_addr=None): self.name = name self.hashkey = hashkey self.ip_addr = ip_addr def __repr__(self): return "" % (self.server_id, self.name.encode('utf-8')) def to_dict(self): return {'server_id':self.server_id, 'name':self.name.encode('utf-8')} class Map(object): def __init__(self, name=None): self.name = name def __repr__(self): return "" % (self.map_id, self.name, self.version) def to_dict(self): return {'map_id':self.map_id, 'name':self.name, 'version':self.version} class Game(object): def __init__(self, game_id=None, start_dt=None, game_type_cd=None, server_id=None, map_id=None, winner=None): self.game_id = game_id self.start_dt = start_dt self.game_type_cd = game_type_cd self.server_id = server_id self.map_id = map_id self.winner = winner def __repr__(self): return "" % (self.game_id, self.start_dt, self.game_type_cd, self.server_id) def to_dict(self): return {'game_id':self.game_id, 'start':self.start_dt.strftime('%Y-%m-%dT%H:%M:%SZ'), 'game_type_cd':self.game_type_cd, 'server_id':self.server_id} def fuzzy_date(self): return pretty_date(self.start_dt) def process_elos(self, session, game_type_cd=None): if game_type_cd is None: game_type_cd = self.game_type_cd # we do not have the actual duration of the game, so use the # maximum alivetime of the players instead duration = 0 for d in session.query(sfunc.max(PlayerGameStat.alivetime)).\ filter(PlayerGameStat.game_id==self.game_id).\ one(): duration = d.seconds scores = {} alivetimes = {} for (p,s,a) in session.query(PlayerGameStat.player_id, PlayerGameStat.score, PlayerGameStat.alivetime).\ filter(PlayerGameStat.game_id==self.game_id).\ filter(PlayerGameStat.alivetime > timedelta(seconds=0)).\ filter(PlayerGameStat.player_id > 2).\ all(): # scores are per second scores[p] = s/float(a.seconds) alivetimes[p] = a.seconds player_ids = scores.keys() elos = {} for e in session.query(PlayerElo).\ filter(PlayerElo.player_id.in_(player_ids)).\ filter(PlayerElo.game_type_cd==game_type_cd).all(): elos[e.player_id] = e # ensure that all player_ids have an elo record for pid in player_ids: if pid not in elos.keys(): elos[pid] = PlayerElo(pid, game_type_cd) for pid in player_ids: elos[pid].k = KREDUCTION.eval(elos[pid].games, alivetimes[pid], duration) if elos[pid].k == 0: del(elos[pid]) del(scores[pid]) del(alivetimes[pid]) elos = self.update_elos(session, elos, scores, ELOPARMS) # add the elos to the session for committing for e in elos: session.add(elos[e]) # no longer calculate DM elo for a duel game # if game_type_cd == 'duel': # self.process_elos(session, "dm") def update_elos(self, session, elos, scores, ep): eloadjust = {} for pid in elos.keys(): eloadjust[pid] = 0 if len(elos) < 2: return elos pids = elos.keys() for i in xrange(0, len(pids)): ei = elos[pids[i]] for j in xrange(i+1, len(pids)): ej = elos[pids[j]] si = scores[ei.player_id] sj = scores[ej.player_id] # normalize scores ofs = min(0, si, sj) si -= ofs sj -= ofs if si + sj == 0: si, sj = 1, 1 # a draw # real score factor scorefactor_real = si / float(si + sj) # estimated score factor by elo elodiff = min(ep.maxlogdistance, max(-ep.maxlogdistance, (float(ei.elo) - float(ej.elo)) * ep.logdistancefactor)) scorefactor_elo = 1 / (1 + math.exp(-elodiff)) # how much adjustment is good? # scorefactor(elodiff) = 1 / (1 + e^(-elodiff * logdistancefactor)) # elodiff(scorefactor) = -ln(1/scorefactor - 1) / logdistancefactor # elodiff'(scorefactor) = 1 / ((scorefactor) (1 - scorefactor) logdistancefactor) # elodiff'(scorefactor) >= 4 / logdistancefactor # adjust'(scorefactor) = K1 + K2 # so we want: # K1 + K2 <= 4 / logdistancefactor <= elodiff'(scorefactor) # as we then don't overcompensate adjustment = scorefactor_real - scorefactor_elo eloadjust[ei.player_id] += adjustment eloadjust[ej.player_id] -= adjustment elo_deltas = {} for pid in pids: new_elo = max(float(elos[pid].elo) + eloadjust[pid] * elos[pid].k * ep.global_K / float(len(elos) - 1), ep.floor) # delta is new minus old elo_deltas[pid] = new_elo - float(elos[pid].elo) log.debug("Player {0}'s Elo going from {1} to {2}.".format(pid, elos[pid].elo, new_elo)) elos[pid].elo = new_elo elos[pid].games += 1 self.save_elo_deltas(session, elo_deltas) return elos def save_elo_deltas(self, session, elo_deltas): """ Saves the amount by which each player's Elo goes up or down in a given game in the PlayerGameStat row, allowing for scoreboard display. elo_deltas is a dictionary such that elo_deltas[player_id] is the elo_delta for that player_id. """ pgstats = {} for pgstat in session.query(PlayerGameStat).\ filter(PlayerGameStat.game_id == self.game_id).\ all(): pgstats[pgstat.player_id] = pgstat for pid in elo_deltas.keys(): try: pgstats[pid].elo_delta = elo_deltas[pid] session.add(pgstats[pid]) except: log.debug("Unable to save Elo delta value for player_id {0}".format(pid)) class PlayerGameStat(object): def __init__(self, player_game_stat_id=None, create_dt=None): self.player_game_stat_id = player_game_stat_id self.create_dt = create_dt def __repr__(self): return "" % (self.player_id, self.game_id, self.create_dt) def to_dict(self): return {'player_id':self.player_id, 'game_id':self.game_id, 'create_dt':self.create_dt.strftime('%Y-%m-%dT%H:%M:%SZ')} def nick_stripped(self): if self.nick is None: return "Anonymous Player" else: return strip_colors(self.nick) def nick_html_colors(self): if self.nick is None: return "Anonymous Player" else: return html_colors(self.nick) def team_html_color(self): # blue if self.team == 5: return "red" # red if self.team == 14: return "blue" if self.team == 13: return "yellow" if self.team == 10: return "pink" class Achievement(object): def __repr__(self): return "" % (self.achievement_cd, self.descr, self.limit) def to_dict(self): return {'achievement_cd':self.achievement_cd, 'name':self.descr, 'limit':self.limit} class PlayerAchievement(object): def __repr__(self): return "" % (self.player_id, self.achievement_cd) def to_dict(self): return {'player_id':self.player_id, 'achievement_cd':self.achievement_cd} class PlayerWeaponStat(object): def __repr__(self): return "" % (self.player_weapon_stats_id, self.player_id, self.game_id) def to_dict(self): return {'player_weapon_stats_id':self.player_weapon_stats_id, 'player_id':self.player_id, 'game_id':self.game_id} class Hashkey(object): def __init__(self, player_id=None, hashkey=None): self.player_id = player_id self.hashkey = hashkey def __repr__(self): return "" % (self.player_id, self.hashkey) def to_dict(self): return {'player_id':self.player_id, 'hashkey':self.hashkey} class PlayerNick(object): def __repr__(self): return "" % (self.player_id, self.stripped_nick) def to_dict(self): return {'player_id':self.player_id, 'name':self.stripped_nick} class PlayerElo(object): def __init__(self, player_id=None, game_type_cd=None): self.player_id = player_id self.game_type_cd = game_type_cd self.score = 0 self.games = 0 self.elo = ELOPARMS.initial def __repr__(self): return "" % (self.player_id, self.game_type_cd, self.elo) def to_dict(self): return {'player_id':self.player_id, 'game_type_cd':self.game_type_cd, 'elo':self.elo} class PlayerRank(object): def nick_html_colors(self): if self.nick is None: return "Anonymous Player" else: return html_colors(self.nick) def __repr__(self): return "" % (self.player_id, self.game_type_cd, self.rank) def to_dict(self): return {'player_id':self.player_id, 'game_type_cd':self.game_type_cd, 'rank':self.rank} def initialize_db(engine=None): DBSession.configure(bind=engine) Base.metadata.bind = engine Base.metadata.create_all(engine) MetaData = sqlalchemy.MetaData(bind=engine, reflect=True) # assign all those tables to an object achievements_table = MetaData.tables['achievements'] cd_achievement_table = MetaData.tables['cd_achievement'] cd_game_type_table = MetaData.tables['cd_game_type'] cd_weapon_table = MetaData.tables['cd_weapon'] db_version_table = MetaData.tables['db_version'] games_table = MetaData.tables['games'] hashkeys_table = MetaData.tables['hashkeys'] maps_table = MetaData.tables['maps'] player_game_stats_table = MetaData.tables['player_game_stats'] players_table = MetaData.tables['players'] player_weapon_stats_table = MetaData.tables['player_weapon_stats'] servers_table = MetaData.tables['servers'] player_nicks_table = MetaData.tables['player_nicks'] player_elos_table = MetaData.tables['player_elos'] player_ranks_table = MetaData.tables['player_ranks'] # now map the tables and the objects together mapper(PlayerAchievement, achievements_table) mapper(Achievement, cd_achievement_table) mapper(GameType, cd_game_type_table) mapper(Weapon, cd_weapon_table) mapper(Game, games_table) mapper(Hashkey, hashkeys_table) mapper(Map, maps_table) mapper(PlayerGameStat, player_game_stats_table) mapper(Player, players_table) mapper(PlayerWeaponStat, player_weapon_stats_table) mapper(Server, servers_table) mapper(PlayerNick, player_nicks_table) mapper(PlayerElo, player_elos_table) mapper(PlayerRank, player_ranks_table)