5 import sqlalchemy as sa
6 import sqlalchemy.sql.functions as func
8 from collections import namedtuple
9 from pyramid.response import Response
10 from pyramid.url import current_route_url
11 from sqlalchemy import desc, distinct
12 from webhelpers.paginate import Page, PageURL
13 from xonstat.models import *
14 from xonstat.util import page_url, namedtuple_to_dict, fix_json_types
16 log = logging.getLogger(__name__)
19 def player_index_data(request):
20 if request.params.has_key('page'):
21 current_page = request.params['page']
26 player_q = DBSession.query(Player).\
27 filter(Player.player_id > 2).\
28 filter(Player.active_ind == True).\
29 filter(sa.not_(Player.nick.like('Anonymous Player%'))).\
30 order_by(Player.player_id.desc())
32 players = Page(player_q, current_page, items_per_page=10, url=page_url)
34 except Exception as e:
38 return {'players':players
42 def player_index(request):
44 Provides a list of all the current players.
46 return player_index_data(request)
49 def player_index_json(request):
51 Provides a list of all the current players. JSON.
53 return [{'status':'not implemented'}]
56 def get_games_played(player_id):
58 Provides a breakdown by gametype of the games played by player_id.
60 Returns a list of namedtuples with the following members:
67 The list itself is ordered by the number of games played
69 GamesPlayed = namedtuple('GamesPlayed', ['game_type_cd', 'games', 'wins',
72 raw_games_played = DBSession.query('game_type_cd', 'wins', 'losses').\
74 "SELECT game_type_cd, "
77 "FROM (SELECT g.game_id, "
80 "WHEN g.winner = pgs.team THEN 1 "
81 "WHEN pgs.rank = 1 THEN 1 "
85 "WHEN g.winner = pgs.team THEN 0 "
86 "WHEN pgs.rank = 1 THEN 0 "
90 "player_game_stats pgs "
91 "WHERE g.game_id = pgs.game_id "
92 "AND pgs.player_id = :player_id) win_loss "
93 "GROUP BY game_type_cd "
94 ).params(player_id=player_id).all()
100 for row in raw_games_played:
101 games = row.wins + row.losses
102 overall_games += games
103 overall_wins += row.wins
104 overall_losses += row.losses
105 win_pct = float(row.wins)/games * 100
107 games_played.append(GamesPlayed(row.game_type_cd, games, row.wins,
108 row.losses, win_pct))
111 overall_win_pct = float(overall_wins)/overall_games * 100
113 overall_win_pct = 0.0
115 games_played.append(GamesPlayed('overall', overall_games, overall_wins,
116 overall_losses, overall_win_pct))
118 # sort the resulting list by # of games played
119 games_played = sorted(games_played, key=lambda x:x.games)
120 games_played.reverse()
124 def get_overall_stats(player_id):
126 Provides a breakdown of stats by gametype played by player_id.
128 Returns a dictionary of namedtuples with the following members:
132 - last_played (last time the player played the game type)
133 - total_playing_time (total amount of time played the game type)
134 - total_pickups (ctf only)
135 - total_captures (ctf only)
136 - cap_ratio (ctf only)
137 - total_carrier_frags (ctf only)
140 The key to the dictionary is the game type code. There is also an
141 "overall" game_type_cd which sums the totals and computes the total ratios.
143 OverallStats = namedtuple('OverallStats', ['total_kills', 'total_deaths',
144 'k_d_ratio', 'last_played', 'total_playing_time', 'total_pickups',
145 'total_captures', 'cap_ratio', 'total_carrier_frags', 'game_type_cd'])
147 raw_stats = DBSession.query('game_type_cd', 'total_kills',
148 'total_deaths', 'last_played', 'total_playing_time',
149 'total_pickups', 'total_captures', 'total_carrier_frags').\
151 "SELECT g.game_type_cd, "
152 "Sum(pgs.kills) total_kills, "
153 "Sum(pgs.deaths) total_deaths, "
154 "Max(pgs.create_dt) last_played, "
155 "Sum(pgs.alivetime) total_playing_time, "
156 "Sum(pgs.pickups) total_pickups, "
157 "Sum(pgs.captures) total_captures, "
158 "Sum(pgs.carrier_frags) total_carrier_frags "
160 "player_game_stats pgs "
161 "WHERE g.game_id = pgs.game_id "
162 "AND pgs.player_id = :player_id "
163 "GROUP BY g.game_type_cd "
164 ).params(player_id=player_id).all()
166 # to be indexed by game_type_cd
169 # sums for the "overall" game type (which is fake)
172 overall_last_played = None
173 overall_playing_time = datetime.timedelta(seconds=0)
174 overall_carrier_frags = 0
176 for row in raw_stats:
177 # running totals or mins
178 overall_kills += row.total_kills or 0
179 overall_deaths += row.total_deaths or 0
181 if overall_last_played is None or row.last_played > overall_last_played:
182 overall_last_played = row.last_played
184 overall_playing_time += row.total_playing_time
186 # individual gametype ratio calculations
188 k_d_ratio = float(row.total_kills)/row.total_deaths
193 cap_ratio = float(row.total_pickups)/row.total_captures
197 overall_carrier_frags += row.total_carrier_frags or 0
199 # everything else is untouched or "raw"
200 os = OverallStats(total_kills=row.total_kills,
201 total_deaths=row.total_deaths,
203 last_played=row.last_played,
204 total_playing_time=row.total_playing_time,
205 total_pickups=row.total_pickups,
206 total_captures=row.total_captures,
208 total_carrier_frags=row.total_carrier_frags,
209 game_type_cd=row.game_type_cd)
211 overall_stats[row.game_type_cd] = os
213 # and lastly, the overall stuff
215 overall_k_d_ratio = float(overall_kills)/overall_deaths
217 overall_k_d_ratio = None
219 os = OverallStats(total_kills=overall_kills,
220 total_deaths=overall_deaths,
221 k_d_ratio=overall_k_d_ratio,
222 last_played=overall_last_played,
223 total_playing_time=overall_playing_time,
227 total_carrier_frags=overall_carrier_frags,
228 game_type_cd='overall')
230 overall_stats['overall'] = os
235 def get_fav_maps(player_id, game_type_cd=None):
237 Provides a breakdown of favorite maps by gametype.
239 Returns a dictionary of namedtuples with the following members:
241 - map_name (map name)
245 The favorite map is defined as the map you've played the most
246 for the given game_type_cd.
248 The key to the dictionary is the game type code. There is also an
249 "overall" game_type_cd which is the overall favorite map. This is
250 defined as the favorite map of the game type you've played the
251 most. The input parameter game_type_cd is for this.
253 FavMap = namedtuple('FavMap', ['map_name', 'map_id', 'times_played', 'game_type_cd'])
255 raw_favs = DBSession.query('game_type_cd', 'map_name',
256 'map_id', 'times_played').\
258 "SELECT game_type_cd, "
262 "FROM (SELECT g.game_type_cd, "
265 "Count(*) times_played, "
268 "partition BY g.game_type_cd "
269 "ORDER BY Count(*) DESC, m.map_id ASC) rank "
271 "player_game_stats pgs, "
273 "WHERE g.game_id = pgs.game_id "
274 "AND g.map_id = m.map_id "
275 "AND pgs.player_id = :player_id "
276 "GROUP BY g.game_type_cd, "
278 "m.name) most_played "
280 "ORDER BY times_played desc "
281 ).params(player_id=player_id).all()
286 fv = FavMap(map_name=row.map_name,
288 times_played=row.times_played,
289 game_type_cd=row.game_type_cd)
291 # if we aren't given a favorite game_type_cd
292 # then the overall favorite is the one we've
294 if overall_fav is None:
295 fav_maps['overall'] = fv
296 overall_fav = fv.game_type_cd
298 # otherwise it is the favorite map from the
299 # favorite game_type_cd (provided as a param)
300 # and we'll overwrite the first dict entry
301 if game_type_cd == fv.game_type_cd:
302 fav_maps['overall'] = fv
304 fav_maps[row.game_type_cd] = fv
309 def get_ranks(player_id):
311 Provides a breakdown of the player's ranks by game type.
313 Returns a dictionary of namedtuples with the following members:
318 The key to the dictionary is the game type code. There is also an
319 "overall" game_type_cd which is the overall best rank.
321 Rank = namedtuple('Rank', ['rank', 'max_rank', 'game_type_cd'])
323 raw_ranks = DBSession.query("game_type_cd", "rank", "max_rank").\
325 "select pr.game_type_cd, pr.rank, overall.max_rank "
326 "from player_ranks pr, "
327 "(select game_type_cd, max(rank) max_rank "
329 "group by game_type_cd) overall "
330 "where pr.game_type_cd = overall.game_type_cd "
331 "and player_id = :player_id "
333 params(player_id=player_id).all()
336 found_top_rank = False
337 for row in raw_ranks:
338 rank = Rank(rank=row.rank,
339 max_rank=row.max_rank,
340 game_type_cd=row.game_type_cd)
342 if not found_top_rank:
343 ranks['overall'] = rank
344 found_top_rank = True
346 ranks[row.game_type_cd] = rank
351 def get_elos(player_id):
353 Provides a breakdown of the player's elos by game type.
355 Returns a dictionary of namedtuples with the following members:
361 The key to the dictionary is the game type code. There is also an
362 "overall" game_type_cd which is the overall best rank.
364 raw_elos = DBSession.query(PlayerElo).filter_by(player_id=player_id).\
365 order_by(PlayerElo.elo.desc()).all()
368 found_max_elo = False
370 if not found_max_elo:
371 elos['overall'] = row
374 elos[row.game_type_cd] = row
379 def get_recent_games(player_id):
381 Provides a list of recent games.
383 Returns the full PlayerGameStat, Game, Server, Map
384 objects for all recent games.
386 RecentGame = namedtuple('RecentGame', ['player_stats', 'game', 'server', 'map'])
388 # recent games table, all data
389 recent_games = DBSession.query(PlayerGameStat, Game, Server, Map).\
390 filter(PlayerGameStat.player_id == player_id).\
391 filter(PlayerGameStat.game_id == Game.game_id).\
392 filter(Game.server_id == Server.server_id).\
393 filter(Game.map_id == Map.map_id).\
394 order_by(Game.game_id.desc())[0:10]
397 RecentGame(player_stats=row.PlayerGameStat,
401 for row in recent_games ]
404 def get_recent_weapons(player_id):
406 Returns the weapons that have been used in the past 90 days
407 and also used in 5 games or more.
409 cutoff = datetime.datetime.utcnow() - datetime.timedelta(days=90)
411 for weapon in DBSession.query(PlayerWeaponStat.weapon_cd, func.count()).\
412 filter(PlayerWeaponStat.player_id == player_id).\
413 filter(PlayerWeaponStat.create_dt > cutoff).\
414 group_by(PlayerWeaponStat.weapon_cd).\
415 having(func.count() > 4).\
417 recent_weapons.append(weapon[0])
419 return recent_weapons
422 def get_accuracy_stats(player_id, weapon_cd, games):
424 Provides accuracy for weapon_cd by player_id for the past N games.
426 # Reaching back 90 days should give us an accurate enough average
427 # We then multiply this out for the number of data points (games) to
428 # create parameters for a flot graph
430 raw_avg = DBSession.query(func.sum(PlayerWeaponStat.hit),
431 func.sum(PlayerWeaponStat.fired)).\
432 filter(PlayerWeaponStat.player_id == player_id).\
433 filter(PlayerWeaponStat.weapon_cd == weapon_cd).\
436 avg = round(float(raw_avg[0])/raw_avg[1]*100, 2)
438 # Determine the raw accuracy (hit, fired) numbers for $games games
439 # This is then enumerated to create parameters for a flot graph
440 raw_accs = DBSession.query(PlayerWeaponStat.game_id,
441 PlayerWeaponStat.hit, PlayerWeaponStat.fired).\
442 filter(PlayerWeaponStat.player_id == player_id).\
443 filter(PlayerWeaponStat.weapon_cd == weapon_cd).\
444 order_by(PlayerWeaponStat.game_id.desc()).\
448 # they come out in opposite order, so flip them in the right direction
452 for i in range(len(raw_accs)):
453 accs.append((raw_accs[i][0], round(float(raw_accs[i][1])/raw_accs[i][2]*100, 2)))
461 def get_damage_stats(player_id, weapon_cd, games):
463 Provides damage info for weapon_cd by player_id for the past N games.
466 raw_avg = DBSession.query(func.sum(PlayerWeaponStat.actual),
467 func.sum(PlayerWeaponStat.hit)).\
468 filter(PlayerWeaponStat.player_id == player_id).\
469 filter(PlayerWeaponStat.weapon_cd == weapon_cd).\
472 avg = round(float(raw_avg[0])/raw_avg[1], 2)
474 # Determine the damage efficiency (hit, fired) numbers for $games games
475 # This is then enumerated to create parameters for a flot graph
476 raw_dmgs = DBSession.query(PlayerWeaponStat.game_id,
477 PlayerWeaponStat.actual, PlayerWeaponStat.hit).\
478 filter(PlayerWeaponStat.player_id == player_id).\
479 filter(PlayerWeaponStat.weapon_cd == weapon_cd).\
480 order_by(PlayerWeaponStat.game_id.desc()).\
484 # they come out in opposite order, so flip them in the right direction
488 for i in range(len(raw_dmgs)):
489 # try to derive, unless we've hit nothing then set to 0!
491 dmg = round(float(raw_dmgs[i][1])/raw_dmgs[i][2], 2)
495 dmgs.append((raw_dmgs[i][0], dmg))
496 except Exception as e:
503 def player_info_data(request):
504 player_id = int(request.matchdict['id'])
509 player = DBSession.query(Player).filter_by(player_id=player_id).\
510 filter(Player.active_ind == True).one()
512 games_played = get_games_played(player_id)
513 overall_stats = get_overall_stats(player_id)
514 fav_maps = get_fav_maps(player_id)
515 elos = get_elos(player_id)
516 ranks = get_ranks(player_id)
517 recent_games = get_recent_games(player_id)
518 recent_weapons = get_recent_weapons(player_id)
520 except Exception as e:
530 return {'player':player,
531 'games_played':games_played,
532 'overall_stats':overall_stats,
536 'recent_games':recent_games,
537 'recent_weapons':recent_weapons
541 def player_info(request):
543 Provides detailed information on a specific player
545 return player_info_data(request)
548 def player_info_json(request):
550 Provides detailed information on a specific player. JSON.
553 # All player_info fields are converted into JSON-formattable dictionaries
554 player_info = player_info_data(request)
556 player = player_info['player'].to_dict()
559 for game in player_info['games_played']:
560 games_played[game.game_type_cd] = namedtuple_to_dict(game)
563 for gt,stats in player_info['overall_stats'].items():
564 overall_stats[gt] = fix_json_types(namedtuple_to_dict(stats))
567 for gt,elo in player_info['elos'].items():
568 elos[gt] = fix_json_types(elo.to_dict())
571 for gt,rank in player_info['ranks'].items():
572 ranks[gt] = namedtuple_to_dict(rank)
575 for gt,stats in player_info['fav_maps'].items():
576 fav_maps[gt] = namedtuple_to_dict(stats)
579 for game in player_info['recent_games']:
581 for key,value in namedtuple_to_dict(game).items():
582 entry[key] = fix_json_types(value.to_dict())
583 recent_games.append(entry)
585 recent_weapons = player_info['recent_weapons']
589 'games_played': games_played,
590 'overall_stats': overall_stats,
591 'fav_maps': fav_maps,
594 'recent_games': recent_games,
595 'recent_weapons': recent_weapons,
597 #return [{'status':'not implemented'}]
600 def player_game_index_data(request):
601 player_id = request.matchdict['player_id']
603 if request.params.has_key('page'):
604 current_page = request.params['page']
609 games_q = DBSession.query(Game, Server, Map).\
610 filter(PlayerGameStat.game_id == Game.game_id).\
611 filter(PlayerGameStat.player_id == player_id).\
612 filter(Game.server_id == Server.server_id).\
613 filter(Game.map_id == Map.map_id).\
614 order_by(Game.game_id.desc())
616 games = Page(games_q, current_page, items_per_page=10, url=page_url)
619 for (game, server, map) in games:
620 pgstats[game.game_id] = DBSession.query(PlayerGameStat).\
621 filter(PlayerGameStat.game_id == game.game_id).\
622 order_by(PlayerGameStat.rank).\
623 order_by(PlayerGameStat.score).all()
625 except Exception as e:
629 return {'player_id':player_id,
634 def player_game_index(request):
636 Provides an index of the games in which a particular
637 player was involved. This is ordered by game_id, with
638 the most recent game_ids first. Paginated.
640 return player_game_index_data(request)
643 def player_game_index_json(request):
645 Provides an index of the games in which a particular
646 player was involved. This is ordered by game_id, with
647 the most recent game_ids first. Paginated. JSON.
649 return [{'status':'not implemented'}]
652 def player_accuracy_data(request):
653 player_id = request.matchdict['id']
654 allowed_weapons = ['nex', 'rifle', 'shotgun', 'uzi', 'minstanex']
658 if request.params.has_key('weapon'):
659 if request.params['weapon'] in allowed_weapons:
660 weapon_cd = request.params['weapon']
662 if request.params.has_key('games'):
664 games = request.params['games']
673 (avg, accs) = get_accuracy_stats(player_id, weapon_cd, games)
675 # if we don't have enough data for the given weapon
676 if len(accs) < games:
680 'player_id':player_id,
681 'player_url':request.route_url('player_info', id=player_id),
689 def player_accuracy(request):
691 Provides the accuracy for the given weapon. (JSON only)
693 return player_accuracy_data(request)
696 def player_accuracy_json(request):
698 Provides a JSON response representing the accuracy for the given weapon.
701 weapon = which weapon to display accuracy for. Valid values are 'nex',
702 'shotgun', 'uzi', and 'minstanex'.
703 games = over how many games to display accuracy. Can be up to 50.
705 return player_accuracy_data(request)
708 def player_damage_data(request):
709 player_id = request.matchdict['id']
710 allowed_weapons = ['grenadelauncher', 'electro', 'crylink', 'hagar',
711 'rocketlauncher', 'laser']
712 weapon_cd = 'rocketlauncher'
715 if request.params.has_key('weapon'):
716 if request.params['weapon'] in allowed_weapons:
717 weapon_cd = request.params['weapon']
719 if request.params.has_key('games'):
721 games = request.params['games']
730 (avg, dmgs) = get_damage_stats(player_id, weapon_cd, games)
732 # if we don't have enough data for the given weapon
733 if len(dmgs) < games:
737 'player_id':player_id,
738 'player_url':request.route_url('player_info', id=player_id),
746 def player_damage_json(request):
748 Provides a JSON response representing the damage for the given weapon.
751 weapon = which weapon to display damage for. Valid values are
752 'grenadelauncher', 'electro', 'crylink', 'hagar', 'rocketlauncher',
754 games = over how many games to display damage. Can be up to 50.
756 return player_damage_data(request)