import numpy as np import json from trueskill import TrueSkill import paramiko import io, os import sys import random sys.path.append('../') from serve.constants import SSH_SERVER, SSH_PORT, SSH_USER, SSH_PASSWORD, SSH_VIDEO_SKILL trueskill_env = TrueSkill() ssh_matchmaker_client = None sftp_matchmaker_client = None def create_ssh_matchmaker_client(server, port, user, password): global ssh_matchmaker_client, sftp_matchmaker_client ssh_matchmaker_client = paramiko.SSHClient() ssh_matchmaker_client.load_system_host_keys() ssh_matchmaker_client.set_missing_host_key_policy(paramiko.AutoAddPolicy()) ssh_matchmaker_client.connect(server, port, user, password) transport = ssh_matchmaker_client.get_transport() transport.set_keepalive(60) sftp_matchmaker_client = ssh_matchmaker_client.open_sftp() def is_connected(): global ssh_matchmaker_client, sftp_matchmaker_client if ssh_matchmaker_client is None or sftp_matchmaker_client is None: return False if not ssh_matchmaker_client.get_transport().is_active(): return False try: sftp_matchmaker_client.listdir('.') except Exception as e: print(f"Error checking SFTP connection: {e}") return False return True def ucb_score(trueskill_diff, t, n): exploration_term = np.sqrt((2 * np.log(t + 1e-5)) / (n + 1e-5)) ucb = -trueskill_diff + 1.0 * exploration_term return ucb def update_trueskill(ratings, ranks): new_ratings = trueskill_env.rate(ratings, ranks) return new_ratings def serialize_rating(rating): return {'mu': rating.mu, 'sigma': rating.sigma} def deserialize_rating(rating_dict): return trueskill_env.Rating(mu=rating_dict['mu'], sigma=rating_dict['sigma']) def save_json_via_sftp(ratings, comparison_counts, total_comparisons): global sftp_matchmaker_client if not is_connected(): create_ssh_matchmaker_client(SSH_SERVER, SSH_PORT, SSH_USER, SSH_PASSWORD) data = { 'ratings': [serialize_rating(r) for r in ratings], 'comparison_counts': comparison_counts.tolist(), 'total_comparisons': total_comparisons } json_data = json.dumps(data) with sftp_matchmaker_client.open(SSH_VIDEO_SKILL, 'w') as f: f.write(json_data) def load_json_via_sftp(): global sftp_matchmaker_client if not is_connected(): create_ssh_matchmaker_client(SSH_SERVER, SSH_PORT, SSH_USER, SSH_PASSWORD) with sftp_matchmaker_client.open(SSH_VIDEO_SKILL, 'r') as f: data = json.load(f) ratings = [deserialize_rating(r) for r in data['ratings']] comparison_counts = np.array(data['comparison_counts']) total_comparisons = data['total_comparisons'] return ratings, comparison_counts, total_comparisons def matchmaker_video(num_players, k_group=4): trueskill_env = TrueSkill() ratings, comparison_counts, total_comparisons = load_json_via_sftp() ratings = ratings[:num_players] comparison_counts = comparison_counts[:num_players, :num_players] selected_player = np.argmin(comparison_counts.sum(axis=1)) selected_trueskill_score = trueskill_env.expose(ratings[selected_player]) trueskill_scores = np.array([trueskill_env.expose(p) for p in ratings]) trueskill_diff = np.abs(trueskill_scores - selected_trueskill_score) n = comparison_counts[selected_player] ucb_scores = ucb_score(trueskill_diff, total_comparisons, n) # Exclude self, select opponent with highest UCB score ucb_scores[selected_player] = -float('inf') excluded_players_1 = [7, 10] excluded_players_2 = [6, 8, 9] excluded_players = excluded_players_1 + excluded_players_2 if selected_player in excluded_players_1: for player in excluded_players: ucb_scores[player] = -float('inf') if selected_player in excluded_players_2: for player in excluded_players_1: ucb_scores[player] = -float('inf') else: excluded_ucb_scores = {player: ucb_scores[player] for player in excluded_players} max_player = max(excluded_ucb_scores, key=excluded_ucb_scores.get) if max_player in excluded_players_1: for player in excluded_players: if player != max_player: ucb_scores[player] = -float('inf') else: for player in excluded_players_1: ucb_scores[player] = -float('inf') opponents = np.argsort(ucb_scores)[-k_group + 1:].tolist() # Group players model_ids = [selected_player] + opponents random.shuffle(model_ids) return model_ids