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"""
Usage:
python3 qa_browser.py --share
"""
import argparse
from collections import defaultdict
import re
import gradio as gr
from fastchat.llm_judge.common import (
load_questions,
load_model_answers,
load_single_model_judgments,
load_pairwise_model_judgments,
resolve_single_judgment_dict,
resolve_pairwise_judgment_dict,
get_single_judge_explanation,
get_pairwise_judge_explanation,
)
questions = []
model_answers = {}
model_judgments_normal_single = {}
model_judgments_math_single = {}
model_judgments_normal_pairwise = {}
model_judgments_math_pairwise = {}
question_selector_map = {}
category_selector_map = defaultdict(list)
def display_question(category_selector, request: gr.Request):
choices = category_selector_map[category_selector]
return gr.Dropdown(
value=choices[0],
choices=choices,
)
def display_pairwise_answer(
question_selector, model_selector1, model_selector2, request: gr.Request
):
q = question_selector_map[question_selector]
qid = q["question_id"]
ans1 = model_answers[model_selector1][qid]
ans2 = model_answers[model_selector2][qid]
chat_mds = pairwise_to_gradio_chat_mds(q, ans1, ans2)
gamekey = (qid, model_selector1, model_selector2)
judgment_dict = resolve_pairwise_judgment_dict(
q,
model_judgments_normal_pairwise,
model_judgments_math_pairwise,
multi_turn=False,
)
explanation = (
"##### Model Judgment (first turn)\n"
+ get_pairwise_judge_explanation(gamekey, judgment_dict)
)
judgment_dict_turn2 = resolve_pairwise_judgment_dict(
q,
model_judgments_normal_pairwise,
model_judgments_math_pairwise,
multi_turn=True,
)
explanation_turn2 = (
"##### Model Judgment (second turn)\n"
+ get_pairwise_judge_explanation(gamekey, judgment_dict_turn2)
)
return chat_mds + [explanation] + [explanation_turn2]
def display_single_answer(question_selector, model_selector1, request: gr.Request):
q = question_selector_map[question_selector]
qid = q["question_id"]
ans1 = model_answers[model_selector1][qid]
chat_mds = single_to_gradio_chat_mds(q, ans1)
gamekey = (qid, model_selector1)
judgment_dict = resolve_single_judgment_dict(
q, model_judgments_normal_single, model_judgments_math_single, multi_turn=False
)
explanation = "##### Model Judgment (first turn)\n" + get_single_judge_explanation(
gamekey, judgment_dict
)
judgment_dict_turn2 = resolve_single_judgment_dict(
q, model_judgments_normal_single, model_judgments_math_single, multi_turn=True
)
explanation_turn2 = (
"##### Model Judgment (second turn)\n"
+ get_single_judge_explanation(gamekey, judgment_dict_turn2)
)
return chat_mds + [explanation] + [explanation_turn2]
newline_pattern1 = re.compile("\n\n(\d+\. )")
newline_pattern2 = re.compile("\n\n(- )")
def post_process_answer(x):
"""Fix Markdown rendering problems."""
x = x.replace("\u2022", "- ")
x = re.sub(newline_pattern1, "\n\g<1>", x)
x = re.sub(newline_pattern2, "\n\g<1>", x)
return x
def pairwise_to_gradio_chat_mds(question, ans_a, ans_b, turn=None):
end = len(question["turns"]) if turn is None else turn + 1
mds = ["", "", "", "", "", "", ""]
for i in range(end):
base = i * 3
if i == 0:
mds[base + 0] = "##### User\n" + question["turns"][i]
else:
mds[base + 0] = "##### User's follow-up question \n" + question["turns"][i]
mds[base + 1] = "##### Assistant A\n" + post_process_answer(
ans_a["choices"][0]["turns"][i].strip()
)
mds[base + 2] = "##### Assistant B\n" + post_process_answer(
ans_b["choices"][0]["turns"][i].strip()
)
ref = question.get("reference", ["", ""])
ref_md = ""
if turn is None:
if ref[0] != "" or ref[1] != "":
mds[6] = f"##### Reference Solution\nQ1. {ref[0]}\nQ2. {ref[1]}"
else:
x = ref[turn] if turn < len(ref) else ""
if x:
mds[6] = f"##### Reference Solution\n{ref[turn]}"
else:
mds[6] = ""
return mds
def single_to_gradio_chat_mds(question, ans, turn=None):
end = len(question["turns"]) if turn is None else turn + 1
mds = ["", "", "", "", ""]
for i in range(end):
base = i * 2
if i == 0:
mds[base + 0] = "##### User\n" + question["turns"][i]
else:
mds[base + 0] = "##### User's follow-up question \n" + question["turns"][i]
mds[base + 1] = "##### Assistant A\n" + post_process_answer(
ans["choices"][0]["turns"][i].strip()
)
ref = question.get("reference", ["", ""])
ref_md = ""
if turn is None:
if ref[0] != "" or ref[1] != "":
mds[4] = f"##### Reference Solution\nQ1. {ref[0]}\nQ2. {ref[1]}"
else:
x = ref[turn] if turn < len(ref) else ""
if x:
mds[4] = f"##### Reference Solution\n{ref[turn]}"
else:
mds[4] = ""
return mds
def build_question_selector_map():
global question_selector_map, category_selector_map
# Build question selector map
for q in questions:
preview = f"{q['question_id']}: " + q["turns"][0][:128] + "..."
question_selector_map[preview] = q
category_selector_map[q["category"]].append(preview)
def build_pairwise_browser_tab():
global question_selector_map, category_selector_map
models = list(model_answers.keys())
num_sides = 2
num_turns = 2
side_names = ["A", "B"]
question_selector_choices = list(question_selector_map.keys())
category_selector_choices = list(category_selector_map.keys())
# Selectors
with gr.Row():
with gr.Column(scale=1, min_width=200):
category_selector = gr.Dropdown(
choices=category_selector_choices, label="Category", container=False
)
with gr.Column(scale=100):
question_selector = gr.Dropdown(
choices=question_selector_choices, label="Question", container=False
)
model_selectors = [None] * num_sides
with gr.Row():
for i in range(num_sides):
with gr.Column():
if i == 0:
value = models[0]
else:
value = "gpt-3.5-turbo"
model_selectors[i] = gr.Dropdown(
choices=models,
value=value,
label=f"Model {side_names[i]}",
container=False,
)
# Conversation
chat_mds = []
for i in range(num_turns):
chat_mds.append(gr.Markdown(elem_id=f"user_question_{i+1}"))
with gr.Row():
for j in range(num_sides):
with gr.Column(scale=100):
chat_mds.append(gr.Markdown())
if j == 0:
with gr.Column(scale=1, min_width=8):
gr.Markdown()
reference = gr.Markdown(elem_id=f"reference")
chat_mds.append(reference)
model_explanation = gr.Markdown(elem_id="model_explanation")
model_explanation2 = gr.Markdown(elem_id="model_explanation")
# Callbacks
category_selector.change(display_question, [category_selector], [question_selector])
question_selector.change(
display_pairwise_answer,
[question_selector] + model_selectors,
chat_mds + [model_explanation] + [model_explanation2],
)
for i in range(num_sides):
model_selectors[i].change(
display_pairwise_answer,
[question_selector] + model_selectors,
chat_mds + [model_explanation] + [model_explanation2],
)
return (category_selector,)
def build_single_answer_browser_tab():
global question_selector_map, category_selector_map
models = list(model_answers.keys())
num_sides = 1
num_turns = 2
side_names = ["A"]
question_selector_choices = list(question_selector_map.keys())
category_selector_choices = list(category_selector_map.keys())
# Selectors
with gr.Row():
with gr.Column(scale=1, min_width=200):
category_selector = gr.Dropdown(
choices=category_selector_choices, label="Category", container=False
)
with gr.Column(scale=100):
question_selector = gr.Dropdown(
choices=question_selector_choices, label="Question", container=False
)
model_selectors = [None] * num_sides
with gr.Row():
for i in range(num_sides):
with gr.Column():
model_selectors[i] = gr.Dropdown(
choices=models,
value=models[i] if len(models) > i else "",
label=f"Model {side_names[i]}",
container=False,
)
# Conversation
chat_mds = []
for i in range(num_turns):
chat_mds.append(gr.Markdown(elem_id=f"user_question_{i+1}"))
with gr.Row():
for j in range(num_sides):
with gr.Column(scale=100):
chat_mds.append(gr.Markdown())
if j == 0:
with gr.Column(scale=1, min_width=8):
gr.Markdown()
reference = gr.Markdown(elem_id=f"reference")
chat_mds.append(reference)
model_explanation = gr.Markdown(elem_id="model_explanation")
model_explanation2 = gr.Markdown(elem_id="model_explanation")
# Callbacks
category_selector.change(display_question, [category_selector], [question_selector])
question_selector.change(
display_single_answer,
[question_selector] + model_selectors,
chat_mds + [model_explanation] + [model_explanation2],
)
for i in range(num_sides):
model_selectors[i].change(
display_single_answer,
[question_selector] + model_selectors,
chat_mds + [model_explanation] + [model_explanation2],
)
return (category_selector,)
block_css = """
#user_question_1 {
background-color: #DEEBF7;
}
#user_question_2 {
background-color: #E2F0D9;
}
#reference {
background-color: #FFF2CC;
}
#model_explanation {
background-color: #FBE5D6;
}
"""
def load_demo():
dropdown_update = gr.Dropdown.update(value=list(category_selector_map.keys())[0])
return dropdown_update, dropdown_update
def build_demo():
build_question_selector_map()
with gr.Blocks(
title="MT-Bench Browser",
theme=gr.themes.Base(text_size=gr.themes.sizes.text_lg),
css=block_css,
) as demo:
gr.Markdown(
"""
# MT-Bench Browser
The code to generate answers and judgments is at [fastchat.llm_judge](https://github.com/lm-sys/FastChat/tree/main/fastchat/llm_judge).
"""
)
with gr.Tab("Single Answer Grading"):
(category_selector,) = build_single_answer_browser_tab()
with gr.Tab("Pairwise Comparison"):
(category_selector2,) = build_pairwise_browser_tab()
demo.load(load_demo, [], [category_selector, category_selector2])
return demo
if __name__ == "__main__":
parser = argparse.ArgumentParser()
parser.add_argument("--host", type=str, default="0.0.0.0")
parser.add_argument("--port", type=int)
parser.add_argument("--share", action="store_true")
parser.add_argument("--bench-name", type=str, default="mt_bench")
args = parser.parse_args()
print(args)
question_file = f"data/{args.bench_name}/question.jsonl"
answer_dir = f"data/{args.bench_name}/model_answer"
pairwise_model_judgment_file = (
f"data/{args.bench_name}/model_judgment/gpt-4_pair.jsonl"
)
single_model_judgment_file = (
f"data/{args.bench_name}/model_judgment/gpt-4_single.jsonl"
)
# Load questions
questions = load_questions(question_file, None, None)
# Load answers
model_answers = load_model_answers(answer_dir)
# Load model judgments
model_judgments_normal_single = (
model_judgments_math_single
) = load_single_model_judgments(single_model_judgment_file)
model_judgments_normal_pairwise = (
model_judgments_math_pairwise
) = load_pairwise_model_judgments(pairwise_model_judgment_file)
demo = build_demo()
demo.queue(
default_concurrency_limit=10, status_update_rate=10, api_open=False
).launch(
server_name=args.host, server_port=args.port, share=args.share, max_threads=200
)