log = require 'winston' async = require 'async' errors = require '../../commons/errors' scoringUtils = require './scoringUtils' LevelSession = require '../../levels/sessions/LevelSession' module.exports = getTwoGames = (req, res) -> #return errors.unauthorized(res, 'You need to be logged in to get games.') unless req.user?.get('email') return if scoringUtils.simulatorIsTooOld req, res humansSessionID = req.body.humansGameID ogresSessionID = req.body.ogresGameID return getSpecificSessions res, humansSessionID, ogresSessionID if humansSessionID and ogresSessionID getRandomSessions req.user, sendSessionsResponse(res) sessionSelectionString = 'team totalScore transpiledCode submittedCodeLanguage teamSpells levelID creatorName creator submitDate leagues' sendSessionsResponse = (res) -> (err, sessions) -> if err then return errors.serverError res, "Couldn't get two games to simulate: #{err}" unless sessions.length is 2 console.log 'No games to score.', sessions.length res.send 204, 'No games to score.' return res.end() taskObject = messageGenerated: Date.now(), sessions: (scoringUtils.formatSessionInformation session for session in sessions) #console.log 'Dispatching ladder game simulation between', taskObject.sessions[0].creatorName, 'and', taskObject.sessions[1].creatorName scoringUtils.sendResponseObject res, taskObject getSpecificSessions = (res, humansSessionID, ogresSessionID) -> async.map [humansSessionID, ogresSessionID], getSpecificSession, sendSessionsResponse(res) getSpecificSession = (sessionID, callback) -> LevelSession.findOne(_id: sessionID).select(sessionSelectionString).lean().exec (err, session) -> if err? then return callback "Couldn\'t find target simulation session #{sessionID}" callback null, session getRandomSessions = (user, callback) -> # Determine whether to play a random match, an internal league match, or an external league match. # Only people in a league will end up simulating internal league matches (for leagues they're in) except by dumb chance. # If we don't like that, we can rework sampleByLevel to have an opportunity to switch to internal leagues if the first session had a league affiliation. leagueIDs = user.get('clans') or [] #leagueIDs = leagueIDs.concat user.get('courseInstances') or [] leagueIDs = (leagueID + '' for leagueID in leagueIDs) # Make sure to fetch them as strings. return sampleByLevel callback unless leagueIDs.length and Math.random() > 1 / leagueIDs.length leagueID = _.sample leagueIDs findRandomSession {'leagues.leagueID': leagueID}, (err, session) -> if err then return callback err unless session then return sampleByLevel callback otherTeam = scoringUtils.calculateOpposingTeam session.team queryParameters = team: otherTeam, levelID: session.levelID if Math.random() < 0.5 # Try to play a match on the internal league ladder for this level queryParameters['leagues.leagueID'] = leagueID findRandomSession queryParameters, (err, otherSession) -> if err then return callback err if otherSession then return callback null, [session, otherSession] # No opposing league session found; try to play an external match delete queryParameters['leagues.leagueID'] findRandomSession queryParameters, (err, otherSession) -> if err then return callback err callback null, [session, otherSession] else # Play what will probably end up being an external match findRandomSession queryParameters, (err, otherSession) -> if err then return callback err callback null, [session, otherSession] # Sampling by level: we pick a level, then find a human and ogre session for that level, one at random, one biased towards recent submissions. #ladderLevelIDs = ['greed', 'criss-cross', 'brawlwood', 'dungeon-arena', 'gold-rush', 'sky-span'] # Let's not give any extra simulations to old ladders. ladderLevelIDs = ['dueling-grounds', 'cavern-survival', 'multiplayer-treasure-grove', 'harrowland', 'zero-sum'] sampleByLevel = (callback) -> levelID = _.sample ladderLevelIDs favorRecentHumans = Math.random() < 0.5 # We pick one session favoring recent submissions, then find another one uniformly to play against async.map [{levelID: levelID, team: 'humans', favorRecent: favorRecentHumans}, {levelID: levelID, team: 'ogres', favorRecent: not favorRecentHumans}], findRandomSession, callback findRandomSession = (queryParams, callback) -> # In MongoDB 3.2, we will be able to easily get a random document with aggregate $sample: https://jira.mongodb.org/browse/SERVER-533 queryParams.submitted = true favorRecent = queryParams.favorRecent delete queryParams.favorRecent if favorRecent return findRecentRandomSession queryParams, callback queryParams.randomSimulationIndex = $lte: Math.random() sort = randomSimulationIndex: -1 LevelSession.findOne(queryParams).sort(sort).select(sessionSelectionString).lean().exec (err, session) -> return callback err if err return callback null, session if session delete queryParams.randomSimulationIndex # Just find the highest-indexed session, if our randomSimulationIndex was lower than the lowest one. LevelSession.findOne(queryParams).sort(sort).select(sessionSelectionString).lean().exec (err, session) -> return callback err if err callback null, session findRecentRandomSession = (queryParams, callback) -> # We pick a random submitDate between the first submit date for the level and now, then do a $lt fetch to find a session to simulate. # We bias it towards recently submitted sessions. findEarliestSubmission queryParams, (err, startDate) -> return callback err, null unless startDate now = new Date() interval = now - startDate cutoff = new Date now - Math.pow(Math.random(), 4) * interval queryParams.submitDate = $gte: startDate, $lt: cutoff LevelSession.findOne(queryParams).sort(submitDate: -1).select(sessionSelectionString).lean().exec (err, session) -> return callback err if err callback null, session earliestSubmissionCache = {} findEarliestSubmission = (queryParams, callback) -> cacheKey = JSON.stringify queryParams return callback null, cached if cached = earliestSubmissionCache[cacheKey] LevelSession.findOne(queryParams).sort(submitDate: 1).lean().exec (err, earliest) -> return callback err if err result = earliestSubmissionCache[cacheKey] = earliest?.submitDate callback null, result