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on
Zero
Running
on
Zero
import argparse | |
from collections import defaultdict | |
import datetime | |
import json | |
import math | |
import pickle | |
from pytz import timezone | |
import numpy as np | |
import pandas as pd | |
import plotly.express as px | |
from tqdm import tqdm | |
from .model_registry import get_model_info | |
from .basic_stats import get_log_files | |
from .clean_battle_data import clean_battle_data | |
pd.options.display.float_format = "{:.2f}".format | |
def compute_elo(battles, K=4, SCALE=400, BASE=10, INIT_RATING=1000): | |
rating = defaultdict(lambda: INIT_RATING) | |
for rd, model_a, model_b, winner in battles[ | |
["model_a", "model_b", "winner"] | |
].itertuples(): | |
ra = rating[model_a] | |
rb = rating[model_b] | |
ea = 1 / (1 + BASE ** ((rb - ra) / SCALE)) | |
eb = 1 / (1 + BASE ** ((ra - rb) / SCALE)) | |
if winner == "model_a": | |
sa = 1 | |
elif winner == "model_b": | |
sa = 0 | |
elif winner == "tie" or winner == "tie (bothbad)": | |
sa = 0.5 | |
else: | |
raise Exception(f"unexpected vote {winner}") | |
rating[model_a] += K * (sa - ea) | |
rating[model_b] += K * (1 - sa - eb) | |
return dict(rating) | |
def get_bootstrap_result(battles, func_compute_elo, num_round=1000): | |
rows = [] | |
for i in tqdm(range(num_round), desc="bootstrap"): | |
tmp_battles = battles.sample(frac=1.0, replace=True) | |
rows.append(func_compute_elo(tmp_battles)) | |
df = pd.DataFrame(rows) | |
return df[df.median().sort_values(ascending=False).index] | |
def compute_elo_mle_with_tie(df, SCALE=400, BASE=10, INIT_RATING=1000): | |
from sklearn.linear_model import LogisticRegression | |
models = pd.concat([df["model_a"], df["model_b"]]).unique() | |
models = pd.Series(np.arange(len(models)), index=models) | |
# duplicate battles | |
df = pd.concat([df, df], ignore_index=True) | |
p = len(models.index) | |
n = df.shape[0] | |
X = np.zeros([n, p]) | |
X[np.arange(n), models[df["model_a"]]] = +math.log(BASE) | |
X[np.arange(n), models[df["model_b"]]] = -math.log(BASE) | |
# one A win => two A win | |
Y = np.zeros(n) | |
Y[df["winner"] == "model_a"] = 1.0 | |
# one tie => one A win + one B win | |
# find tie + tie (both bad) index | |
tie_idx = (df["winner"] == "tie") | (df["winner"] == "tie (bothbad)") | |
tie_idx[len(tie_idx) // 2 :] = False | |
Y[tie_idx] = 1.0 | |
lr = LogisticRegression(fit_intercept=False) | |
lr.fit(X, Y) | |
elo_scores = SCALE * lr.coef_[0] + INIT_RATING | |
# calibrate llama-13b to 800 if applicable | |
if "llama-13b" in models.index: | |
elo_scores += 800 - elo_scores[models["llama-13b"]] | |
return pd.Series(elo_scores, index=models.index).sort_values(ascending=False) | |
def get_median_elo_from_bootstrap(bootstrap_df): | |
median = dict(bootstrap_df.quantile(0.5)) | |
median = {k: int(v + 0.5) for k, v in median.items()} | |
return median | |
def compute_pairwise_win_fraction(battles, model_order, limit_show_number=None): | |
# Times each model wins as Model A | |
a_win_ptbl = pd.pivot_table( | |
battles[battles["winner"] == "model_a"], | |
index="model_a", | |
columns="model_b", | |
aggfunc="size", | |
fill_value=0, | |
) | |
# Table counting times each model wins as Model B | |
b_win_ptbl = pd.pivot_table( | |
battles[battles["winner"] == "model_b"], | |
index="model_a", | |
columns="model_b", | |
aggfunc="size", | |
fill_value=0, | |
) | |
# Table counting number of A-B pairs | |
num_battles_ptbl = pd.pivot_table( | |
battles, index="model_a", columns="model_b", aggfunc="size", fill_value=0 | |
) | |
# Computing the proportion of wins for each model as A and as B | |
# against all other models | |
row_beats_col_freq = (a_win_ptbl + b_win_ptbl.T) / ( | |
num_battles_ptbl + num_battles_ptbl.T | |
) | |
if model_order is None: | |
prop_wins = row_beats_col_freq.mean(axis=1).sort_values(ascending=False) | |
model_order = list(prop_wins.keys()) | |
if limit_show_number is not None: | |
model_order = model_order[:limit_show_number] | |
# Arrange ordering according to proprition of wins | |
row_beats_col = row_beats_col_freq.loc[model_order, model_order] | |
return row_beats_col | |
def visualize_leaderboard_table(rating): | |
models = list(rating.keys()) | |
models.sort(key=lambda k: -rating[k]) | |
emoji_dict = { | |
1: "🥇", | |
2: "🥈", | |
3: "🥉", | |
} | |
md = "" | |
md += "| Rank | Model | Elo Rating | Description |\n" | |
md += "| --- | --- | --- | --- |\n" | |
for i, model in enumerate(models): | |
rank = i + 1 | |
minfo = get_model_info(model) | |
emoji = emoji_dict.get(rank, "") | |
md += f"| {rank} | {emoji} [{model}]({minfo.link}) | {rating[model]:.0f} | {minfo.description} |\n" | |
return md | |
def visualize_pairwise_win_fraction(battles, model_order): | |
row_beats_col = compute_pairwise_win_fraction(battles, model_order) | |
fig = px.imshow( | |
row_beats_col, | |
color_continuous_scale="RdBu", | |
text_auto=".2f", | |
height=700, | |
width=700, | |
) | |
fig.update_layout( | |
xaxis_title="Model B", | |
yaxis_title="Model A", | |
xaxis_side="top", | |
title_y=0.07, | |
title_x=0.5, | |
) | |
fig.update_traces( | |
hovertemplate="Model A: %{y}<br>Model B: %{x}<br>Fraction of A Wins: %{z}<extra></extra>" | |
) | |
return fig | |
def visualize_battle_count(battles, model_order): | |
ptbl = pd.pivot_table( | |
battles, index="model_a", columns="model_b", aggfunc="size", fill_value=0 | |
) | |
battle_counts = ptbl + ptbl.T | |
fig = px.imshow( | |
battle_counts.loc[model_order, model_order], | |
text_auto=True, | |
height=700, | |
width=700, | |
) | |
fig.update_layout( | |
xaxis_title="Model B", | |
yaxis_title="Model A", | |
xaxis_side="top", | |
title_y=0.07, | |
title_x=0.5, | |
) | |
fig.update_traces( | |
hovertemplate="Model A: %{y}<br>Model B: %{x}<br>Count: %{z}<extra></extra>" | |
) | |
return fig | |
def visualize_average_win_rate(battles, limit_show_number): | |
row_beats_col_freq = compute_pairwise_win_fraction( | |
battles, None, limit_show_number=limit_show_number | |
) | |
fig = px.bar( | |
row_beats_col_freq.mean(axis=1).sort_values(ascending=False), | |
text_auto=".2f", | |
height=500, | |
width=700, | |
) | |
fig.update_layout( | |
yaxis_title="Average Win Rate", xaxis_title="Model", showlegend=False | |
) | |
return fig | |
def visualize_bootstrap_elo_rating(df, df_final, limit_show_number): | |
bars = ( | |
pd.DataFrame( | |
dict( | |
lower=df.quantile(0.025), | |
rating=df_final, | |
upper=df.quantile(0.975), | |
) | |
) | |
.reset_index(names="model") | |
.sort_values("rating", ascending=False) | |
) | |
bars = bars[:limit_show_number] | |
bars["error_y"] = bars["upper"] - bars["rating"] | |
bars["error_y_minus"] = bars["rating"] - bars["lower"] | |
bars["rating_rounded"] = np.round(bars["rating"], 2) | |
fig = px.scatter( | |
bars, | |
x="model", | |
y="rating", | |
error_y="error_y", | |
error_y_minus="error_y_minus", | |
text="rating_rounded", | |
height=500, | |
width=700, | |
) | |
fig.update_layout(xaxis_title="Model", yaxis_title="Rating") | |
return fig | |
def report_elo_analysis_results(battles_json, rating_system="bt", num_bootstrap=100, anony_only=True): | |
battles = pd.DataFrame(battles_json) | |
battles = battles.sort_values(ascending=True, by=["tstamp"]) | |
# Only use anonymous votes | |
if anony_only: | |
battles = battles[battles["anony"]].reset_index(drop=True) | |
battles_no_ties = battles[~battles["winner"].str.contains("tie")] | |
# Online update | |
elo_rating_online = compute_elo(battles) | |
if rating_system == "bt": | |
bootstrap_df = get_bootstrap_result( | |
battles, compute_elo_mle_with_tie, num_round=num_bootstrap | |
) | |
elo_rating_final = compute_elo_mle_with_tie(battles) | |
elif rating_system == "elo": | |
bootstrap_df = get_bootstrap_result( | |
battles, compute_elo, num_round=num_bootstrap | |
) | |
elo_rating_median = get_median_elo_from_bootstrap(bootstrap_df) | |
elo_rating_final = elo_rating_median | |
model_order = list(elo_rating_final.keys()) | |
model_order.sort(key=lambda k: -elo_rating_final[k]) | |
limit_show_number = 25 # limit show number to make plots smaller | |
model_order = model_order[:limit_show_number] | |
# leaderboard_table_df: elo rating, variance, 95% interval, number of battles | |
leaderboard_table_df = pd.DataFrame( | |
{ | |
"rating": elo_rating_final, | |
"variance": bootstrap_df.var(), | |
"rating_q975": bootstrap_df.quantile(0.975), | |
"rating_q025": bootstrap_df.quantile(0.025), | |
"num_battles": battles["model_a"].value_counts() | |
+ battles["model_b"].value_counts(), | |
} | |
) | |
# Plots | |
leaderboard_table = visualize_leaderboard_table(elo_rating_final) | |
win_fraction_heatmap = visualize_pairwise_win_fraction(battles_no_ties, model_order) | |
battle_count_heatmap = visualize_battle_count(battles_no_ties, model_order) | |
average_win_rate_bar = visualize_average_win_rate( | |
battles_no_ties, limit_show_number | |
) | |
bootstrap_elo_rating = visualize_bootstrap_elo_rating( | |
bootstrap_df, elo_rating_final, limit_show_number | |
) | |
last_updated_tstamp = battles["tstamp"].max() | |
last_updated_datetime = datetime.datetime.fromtimestamp( | |
last_updated_tstamp, tz=timezone("US/Pacific") | |
).strftime("%Y-%m-%d %H:%M:%S %Z") | |
return { | |
"rating_system": rating_system, | |
"elo_rating_online": elo_rating_online, | |
"elo_rating_final": elo_rating_final, | |
"leaderboard_table": leaderboard_table, | |
"win_fraction_heatmap": win_fraction_heatmap, | |
"battle_count_heatmap": battle_count_heatmap, | |
"average_win_rate_bar": average_win_rate_bar, | |
"bootstrap_elo_rating": bootstrap_elo_rating, | |
"last_updated_datetime": last_updated_datetime, | |
"last_updated_tstamp": last_updated_tstamp, | |
"bootstrap_df": bootstrap_df, | |
"leaderboard_table_df": leaderboard_table_df, | |
} | |
def pretty_print_elo_rating(rating): | |
model_order = list(rating.keys()) | |
model_order.sort(key=lambda k: -rating[k]) | |
for i, model in enumerate(model_order): | |
print(f"{i+1:2d}, {model:25s}, {rating[model]:.0f}") | |
if __name__ == "__main__": | |
parser = argparse.ArgumentParser() | |
parser.add_argument("--clean-battle-file", type=str) | |
parser.add_argument("--max-num-files", type=int) | |
parser.add_argument("--num-bootstrap", type=int, default=100) | |
parser.add_argument( | |
"--rating-system", type=str, choices=["bt", "elo"], default="bt" | |
) | |
parser.add_argument("--exclude-tie", action="store_true", default=False) | |
args = parser.parse_args() | |
np.random.seed(42) | |
if args.clean_battle_file: | |
# Read data from a cleaned battle files | |
battles = pd.read_json(args.clean_battle_file) | |
else: | |
# Read data from all log files | |
log_files = get_log_files(args.max_num_files) | |
battles = clean_battle_data(log_files) | |
anony_results = report_elo_analysis_results( | |
battles, rating_system=args.rating_system, num_bootstrap=args.num_bootstrap, anony_only=True | |
) | |
full_results = report_elo_analysis_results( | |
battles, rating_system=args.rating_system, num_bootstrap=args.num_bootstrap, anony_only=False | |
) | |
print("# Online Elo") | |
pretty_print_elo_rating(anony_results["elo_rating_online"]) | |
print("# Median") | |
pretty_print_elo_rating(anony_results["elo_rating_final"]) | |
print(f"last update : {anony_results['last_updated_datetime']}") | |
last_updated_tstamp = full_results["last_updated_tstamp"] | |
cutoff_date = datetime.datetime.fromtimestamp( | |
last_updated_tstamp, tz=timezone("US/Pacific") | |
).strftime("%Y%m%d") | |
results = { | |
"anony": anony_results, | |
"full": full_results, | |
} | |
with open(f"elo_results_{cutoff_date}.pkl", "wb") as fout: | |
pickle.dump(results, fout) | |