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sandbox / app.py
justinxzhao's picture
justinxzhao
Parse judgments with structured output prompting, one response model, one judge model at a time.
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import os
import streamlit as st
import dotenv
import openai
from openai import OpenAI
import anthropic
from together import Together
import google.generativeai as genai
import time
from collections import defaultdict
from typing import List, Optional, Literal, Union, Dict
from constants import (
LLM_COUNCIL_MEMBERS,
PROVIDER_TO_AVATAR_MAP,
AGGREGATORS,
LLM_TO_UI_NAME_MAP,
)
from prompts import *
from judging_dataclasses import (
# DirectAssessmentJudgingResponse,
DirectAssessmentCriterionScore,
DirectAssessmentCriteriaScores,
)
import pandas as pd
import seaborn as sns
import matplotlib.pyplot as plt
import numpy as np
dotenv.load_dotenv()
PASSWORD = os.getenv("APP_PASSWORD")
# Load API keys from environment variables
OPENAI_API_KEY = os.getenv("OPENAI_API_KEY")
ANTHROPIC_API_KEY = os.getenv("ANTHROPIC_API_KEY")
GOOGLE_API_KEY = os.getenv("GOOGLE_API_KEY")
TOGETHER_API_KEY = os.getenv("TOGETHER_API_KEY")
# Initialize API clients
together_client = Together(api_key=TOGETHER_API_KEY)
genai.configure(api_key=GOOGLE_API_KEY)
# Set up API clients for OpenAI and Anthropic
openai.api_key = OPENAI_API_KEY
openai_client = OpenAI(
organization="org-kUoRSK0nOw4W2nQYMVGWOt03",
project="proj_zb6k1DdgnSEbiAEMWxSOVVu4",
)
# anthropic_client = anthropic.Client(api_key=ANTHROPIC_API_KEY)
anthropic_client = anthropic.Anthropic()
client = OpenAI()
def anthropic_streamlit_streamer(stream, llm):
"""
Process the Anthropic streaming response and yield content from the deltas.
:param stream: Streaming object from Anthropic API
:return: Yields content (text) from the streaming response.
"""
for event in stream:
if hasattr(event, "type"):
# Count input token usage.
if event.type == "message_start":
st.session_state["input_token_usage"][
llm
] += event.message.usage.input_tokens
st.session_state["output_token_usage"][
llm
] += event.message.usage.output_tokens
# Count output token usage.
if event.type == "message_delta":
st.session_state["output_token_usage"][llm] += event.usage.output_tokens
# Handle content blocks
if event.type == "content_block_delta" and hasattr(event, "delta"):
# Extract text delta from the event
text_delta = getattr(event.delta, "text", None)
if text_delta:
yield text_delta
# Handle message completion events (optional if needed)
elif event.type == "message_stop":
break # End of message, stop streaming
def get_ui_friendly_name(llm):
if "agg__" in llm:
return (
"MoA ("
+ LLM_TO_UI_NAME_MAP.get(llm.split("__")[1], llm.split("__")[1])
+ ")"
)
return LLM_TO_UI_NAME_MAP.get(llm, llm)
def google_streamlit_streamer(stream):
# TODO: Count token usage.
for chunk in stream:
yield chunk.text
def openai_streamlit_streamer(stream, llm):
# https://platform.openai.com/docs/api-reference/streaming
for event in stream:
if event.usage:
st.session_state["input_token_usage"][llm] += event.usage.prompt_tokens
st.session_state["output_token_usage"][llm] += event.usage.completion_tokens
if event.choices:
if event.choices[0].delta.content:
yield event.choices[0].delta.content
def together_streamlit_streamer(stream, llm):
# https://docs.together.ai/docs/chat-overview#streaming-responses
for chunk in stream:
if chunk.usage:
st.session_state["input_token_usage"][llm] += chunk.usage.prompt_tokens
if chunk.usage:
st.session_state["output_token_usage"][llm] += chunk.usage.completion_tokens
yield chunk.choices[0].delta.content
# Helper functions for LLM council and aggregator selection
def llm_council_selector():
selected_council = st.radio(
"Choose a council configuration", options=list(LLM_COUNCIL_MEMBERS.keys())
)
return LLM_COUNCIL_MEMBERS[selected_council]
def aggregator_selector():
return st.radio("Choose an aggregator LLM", options=AGGREGATORS)
# API calls for different providers
def get_openai_response(model_name, prompt):
return openai_client.chat.completions.create(
model=model_name,
messages=[{"role": "user", "content": prompt}],
stream=True,
stream_options={"include_usage": True},
)
# https://docs.anthropic.com/en/api/messages-streaming
def get_anthropic_response(model_name, prompt):
return anthropic_client.messages.create(
max_tokens=1024,
messages=[{"role": "user", "content": prompt}],
model=model_name,
stream=True,
)
def get_together_response(model_name, prompt):
return together_client.chat.completions.create(
model=model_name,
messages=[{"role": "user", "content": prompt}],
stream=True,
)
# https://ai.google.dev/gemini-api/docs/text-generation?lang=python
def get_google_response(model_name, prompt):
model = genai.GenerativeModel(model_name)
return model.generate_content(prompt, stream=True)
def get_llm_response_stream(model_identifier, prompt):
"""Returns a streamlit-friendly stream of response tokens from the LLM."""
provider, model_name = model_identifier.split("://")
if provider == "openai":
return openai_streamlit_streamer(
get_openai_response(model_name, prompt), model_identifier
)
elif provider == "anthropic":
return anthropic_streamlit_streamer(
get_anthropic_response(model_name, prompt), model_identifier
)
elif provider == "together":
return together_streamlit_streamer(
get_together_response(model_name, prompt), model_identifier
)
elif provider == "vertex":
return google_streamlit_streamer(get_google_response(model_name, prompt))
else:
return None
def create_dataframe_for_direct_assessment_judging_response(
response: DirectAssessmentCriteriaScores, judging_model: str
) -> pd.DataFrame:
# Initialize empty list to collect data
data = []
# Loop through models
# for judging_model in response.judging_models:
# model_name = judging_model.model
# Loop through criteria_scores
for criteria_score in response.criteria_scores:
data.append(
{
"judging_model": judging_model, # Gets passed in.
"criteria": criteria_score.criterion,
"score": criteria_score.score,
"explanation": criteria_score.explanation,
}
)
# Create DataFrame
return pd.DataFrame(data)
# Streamlit form UI
def render_criteria_form(criteria_num):
"""Render a criteria input form."""
with st.expander(f"Criteria {criteria_num + 1}"):
name = st.text_input(
f"Name for Criteria {criteria_num + 1}", key=f"criteria_name_{criteria_num}"
)
description = st.text_area(
f"Description for Criteria {criteria_num + 1}",
key=f"criteria_desc_{criteria_num}",
)
min_score = st.number_input(
f"Min Score for Criteria {criteria_num + 1}",
min_value=0,
step=1,
key=f"criteria_min_{criteria_num}",
)
max_score = st.number_input(
f"Max Score for Criteria {criteria_num + 1}",
min_value=0,
step=1,
key=f"criteria_max_{criteria_num}",
)
return Criteria(
name=name, description=description, min_score=min_score, max_score=max_score
)
def format_likert_comparison_options(options):
return "\n".join([f"{i + 1}: {option}" for i, option in enumerate(options)])
def format_criteria_list(criteria_list):
return "\n".join(
[f"{criteria.name}: {criteria.description}" for criteria in criteria_list]
)
def get_direct_assessment_prompt(
direct_assessment_prompt, user_prompt, response, criteria_list, options
):
return direct_assessment_prompt.format(
user_prompt=user_prompt,
response=response,
criteria_list=f"{format_criteria_list(DEFAULT_DIRECT_ASSESSMENT_CRITERIA_LIST)}",
options=f"{format_likert_comparison_options(SEVEN_POINT_DIRECT_ASSESSMENT_OPTIONS)}",
)
def get_default_direct_assessment_prompt(user_prompt):
return get_direct_assessment_prompt(
direct_assessment_prompt=DEFAULT_DIRECT_ASSESSMENT_PROMPT,
user_prompt=user_prompt,
response="{response}",
criteria_list=DEFAULT_DIRECT_ASSESSMENT_CRITERIA_LIST,
options=SEVEN_POINT_DIRECT_ASSESSMENT_OPTIONS,
)
def get_aggregator_prompt(aggregator_prompt, user_prompt, llms):
responses_from_other_llms = "\n\n".join(
[
f"{get_ui_friendly_name(model)} START\n{st.session_state['responses'][model]}\n\n{get_ui_friendly_name(model)} END\n\n\n"
for model in llms
]
)
return aggregator_prompt.format(
user_prompt=user_prompt,
responses_from_other_llms=responses_from_other_llms,
)
def get_default_aggregator_prompt(user_prompt, llms):
return get_aggregator_prompt(
DEFAULT_AGGREGATOR_PROMPT,
user_prompt=user_prompt,
llms=llms,
)
def get_parse_judging_response_for_direct_assessment_prompt(
judging_response: str,
criteria_list,
options,
) -> str:
# formatted_judging_responses = "\n\n\n".join(
# [
# f"----- {get_ui_friendly_name(model)} START -----\n\n\n{judging_responses[model]}\n\n\n-----{get_ui_friendly_name(model)} END-----\n\n\n"
# for model in judging_responses.keys()
# ]
# )
formatted_judging_response = (
f"----- START -----\n\n\n{judging_response}\n\n\n----- END -----\n\n\n"
)
return PARSE_JUDGING_RESPONSE_FOR_DIRECT_ASSESSMENT_PROMPT.format(
judging_response=formatted_judging_response,
criteria_list=format_criteria_list(criteria_list),
options=format_likert_comparison_options(options),
)
def get_parsed_judging_response_obj_using_llm(
prompt: str,
) -> DirectAssessmentCriteriaScores:
# if os.getenv("DEBUG_MODE") == "True":
# return DirectAssessmentJudgingResponse(
# judging_models=[
# DirectAssessmentCriteriaScores(
# model="together://meta-llama/Meta-Llama-3.1-8B-Instruct-Turbo",
# criteria_scores=[
# DirectAssessmentCriterionScore(
# criterion="helpfulness", score=3, explanation="explanation1"
# ),
# DirectAssessmentCriterionScore(
# criterion="conciseness", score=4, explanation="explanation2"
# ),
# DirectAssessmentCriterionScore(
# criterion="relevance", score=5, explanation="explanation3"
# ),
# ],
# ),
# DirectAssessmentCriteriaScores(
# model="together://meta-llama/Llama-3.2-3B-Instruct-Turbo",
# criteria_scores=[
# DirectAssessmentCriterionScore(
# criterion="helpfulness", score=1, explanation="explanation1"
# ),
# DirectAssessmentCriterionScore(
# criterion="conciseness", score=2, explanation="explanation2"
# ),
# DirectAssessmentCriterionScore(
# criterion="relevance", score=3, explanation="explanation3"
# ),
# ],
# ),
# ]
# )
# else:
completion = client.beta.chat.completions.parse(
model="gpt-4o-mini",
messages=[
{
"role": "system",
"content": "Parse the judging responses into structured data.",
},
{"role": "user", "content": prompt},
],
response_format=DirectAssessmentCriteriaScores,
)
# Track token usage.
st.session_state["input_token_usage"][
"gpt-4o-mini"
] += completion.usage.prompt_tokens
st.session_state["output_token_usage"][
"gpt-4o-mini"
] += completion.usage.completion_tokens
return completion.choices[0].message.parsed
def get_llm_avatar(model_identifier):
if "agg__" in model_identifier:
return "img/council_icon.png"
else:
return PROVIDER_TO_AVATAR_MAP[model_identifier]
def plot_criteria_scores(df):
# Group by criteria and calculate mean and std over all judges.
grouped = df.groupby(["criteria"]).agg({"score": ["mean", "std"]}).reset_index()
# Flatten the MultiIndex columns
grouped.columns = ["criteria", "mean_score", "std_score"]
# Fill NaN std with zeros (in case there's only one score per group)
grouped["std_score"] = grouped["std_score"].fillna(0)
# Set up the plot
plt.figure(figsize=(8, 5))
# Create a horizontal bar plot
ax = sns.barplot(
data=grouped,
x="mean_score",
y="criteria",
hue="criteria",
errorbar=None, # Updated parameter
orient="h",
)
# Add error bars manually
# Iterate over the bars and add error bars
for i, (mean, std) in enumerate(zip(grouped["mean_score"], grouped["std_score"])):
# Get the current bar
bar = ax.patches[i]
# Calculate the center of the bar
center = bar.get_y() + bar.get_height() / 2
# Add the error bar
ax.errorbar(x=mean, y=center, xerr=std, ecolor="black", capsize=3, fmt="none")
# Set labels and title
ax.set_xlabel("")
ax.set_ylabel("")
plt.tight_layout()
# Display the plot in Streamlit
st.pyplot(plt.gcf())
def plot_overall_scores(overall_scores_df):
# Calculate mean and standard deviation
summary = (
overall_scores_df.groupby("response_model")
.agg({"score": ["mean", "std"]})
.reset_index()
)
summary.columns = ["response_model", "mean_score", "std_score"]
# Add UI-friendly names
summary["ui_friendly_name"] = summary["response_model"].apply(get_ui_friendly_name)
# Sort the summary dataframe by mean_score in descending order
summary = summary.sort_values("mean_score", ascending=False)
# Create the plot
plt.figure(figsize=(8, 5))
# Plot bars with rainbow colors
ax = sns.barplot(
x="ui_friendly_name",
y="mean_score",
hue="ui_friendly_name",
data=summary,
palette="rainbow",
capsize=0.1,
legend=False,
)
# Add error bars manually
x_coords = range(len(summary))
plt.errorbar(
x=x_coords,
y=summary["mean_score"],
yerr=summary["std_score"],
fmt="none",
c="black",
capsize=5,
zorder=10, # Ensure error bars are on top
)
# Add text annotations using the actual positions of the bars
for patch, row in zip(ax.patches, summary.itertuples()):
# Get the center of each bar (x position)
x = patch.get_x() + patch.get_width() / 2
y = patch.get_height()
# Add the text annotation
ax.text(
x,
y,
f"{row.mean_score:.2f}",
ha="center",
va="bottom",
# fontweight="bold",
color="black",
bbox=dict(facecolor="white", edgecolor="none", alpha=0.7, pad=0.5),
)
# Customize the plot
plt.xlabel("")
plt.ylabel("Overall Score")
plt.xticks(rotation=45, ha="right")
plt.tight_layout()
# Display the plot in Streamlit
st.pyplot(plt.gcf())
def plot_per_judge_overall_scores(df):
# Find the overall score by finding the overall score for each judge, and then averaging
# over all judges.
grouped = df.groupby(["judging_model"]).agg({"score": ["mean"]}).reset_index()
grouped.columns = ["judging_model", "overall_score"]
# Create the horizontal bar plot
plt.figure(figsize=(10, 6))
ax = sns.barplot(
data=grouped,
x="judging_model",
y="overall_score",
hue="judging_model",
orient="v",
palette="rainbow",
)
# Customize the plot
plt.title("Overall Score from each LLM Judge")
plt.xlabel("Overall Score")
plt.ylabel("LLM Judge")
# Adjust layout and display the plot
plt.tight_layout()
st.pyplot(plt)
def get_selected_models_to_streamlit_column_map(st_columns, selected_models):
selected_models_to_streamlit_column_map = {
model: st_columns[i % len(st_columns)]
for i, model in enumerate(selected_models)
}
return selected_models_to_streamlit_column_map
def get_aggregator_key(llm_aggregator):
return "agg__" + llm_aggregator
def st_render_responses(user_prompt):
"""Renders the responses from the LLMs.
Uses cached responses from the session state, if available.
Otherwise, streams the responses anew.
Assumes that the session state has already been set up with selected models and selected aggregator.
"""
st.markdown("#### Responses")
response_columns = st.columns(3)
selected_models_to_streamlit_column_map = (
get_selected_models_to_streamlit_column_map(
response_columns, st.session_state.selected_models
)
)
for response_model in st.session_state.selected_models:
st_column = selected_models_to_streamlit_column_map.get(
response_model, response_columns[0]
)
with st_column.chat_message(
response_model,
avatar=get_llm_avatar(response_model),
):
st.write(get_ui_friendly_name(response_model))
if response_model in st.session_state.responses:
# Use the cached response from session state.
st.write(st.session_state.responses[response_model])
else:
# Stream the response from the LLM.
message_placeholder = st.empty()
stream = get_llm_response_stream(response_model, user_prompt)
st.session_state.responses[response_model] = (
message_placeholder.write_stream(stream)
)
# Render the aggregator response.
aggregator_prompt = get_default_aggregator_prompt(
user_prompt=user_prompt, llms=st.session_state.selected_models
)
# Streaming response from the aggregator.
with st.chat_message(
get_aggregator_key(st.session_state.selected_aggregator),
avatar="img/council_icon.png",
):
st.write(
f"{get_ui_friendly_name(get_aggregator_key(st.session_state.selected_aggregator))}"
)
if (
get_aggregator_key(st.session_state.selected_aggregator)
in st.session_state.responses
):
st.write(
st.session_state.responses[
get_aggregator_key(st.session_state.selected_aggregator)
]
)
else:
message_placeholder = st.empty()
aggregator_stream = get_llm_response_stream(
st.session_state.selected_aggregator, aggregator_prompt
)
if aggregator_stream:
st.session_state.responses[
get_aggregator_key(st.session_state.selected_aggregator)
] = message_placeholder.write_stream(aggregator_stream)
st.session_state.responses_collected = True
def st_direct_assessment_results(user_prompt, direct_assessment_prompt, criteria_list):
"""Renders the direct assessment results block.
Uses session state to render results from LLMs. If the session state isn't set, then fetches the
responses from the LLMs services from scratch (and sets the session state).
Assumes that the session state has already been set up with responses.
"""
responses_for_judging = st.session_state.responses
# Get judging responses.
response_judging_columns = st.columns(3)
responses_for_judging_to_streamlit_column_map = (
get_selected_models_to_streamlit_column_map(
response_judging_columns, responses_for_judging.keys()
)
)
for response_model, response in responses_for_judging.items():
st_column = responses_for_judging_to_streamlit_column_map[response_model]
with st_column:
st.write(f"Judging for {get_ui_friendly_name(response_model)}")
judging_prompt = get_direct_assessment_prompt(
direct_assessment_prompt=direct_assessment_prompt,
user_prompt=user_prompt,
response=response,
criteria_list=criteria_list,
options=SEVEN_POINT_DIRECT_ASSESSMENT_OPTIONS,
)
with st.expander("Final Judging Prompt"):
st.code(judging_prompt)
for judging_model in st.session_state.selected_models:
with st.expander(get_ui_friendly_name(judging_model), expanded=True):
with st.chat_message(
judging_model,
avatar=PROVIDER_TO_AVATAR_MAP[judging_model],
):
if (
judging_model
in st.session_state.direct_assessment_judging_responses[
response_model
]
):
# Use the session state cached response.
st.write(
st.session_state.direct_assessment_judging_responses[
response_model
][judging_model]
)
else:
message_placeholder = st.empty()
# Get the judging response from the LLM.
judging_stream = get_llm_response_stream(
judging_model, judging_prompt
)
st.session_state.direct_assessment_judging_responses[
response_model
][judging_model] = message_placeholder.write_stream(
judging_stream
)
# Parse the judging response. If parsing results are already cached, then
# skip.
# Use Structured Output to parse the judging response.
parse_judging_response_prompt = get_parse_judging_response_for_direct_assessment_prompt(
judging_response=st.session_state.direct_assessment_judging_responses[
response_model
][
judging_model
],
criteria_list=criteria_list,
options=SEVEN_POINT_DIRECT_ASSESSMENT_OPTIONS,
)
st.write("Parse judging response prompt:")
st.write(parse_judging_response_prompt)
if (
response_model
not in st.session_state.direct_assessment_judging_by_response_and_judging_model_df
or judging_model
not in st.session_state.direct_assessment_judging_by_response_and_judging_model_df[
response_model
]
):
parsed_judging_response_obj = (
get_parsed_judging_response_obj_using_llm(
parse_judging_response_prompt
)
)
st.session_state.direct_assessment_judging_by_response_and_judging_model_df[
response_model
][
judging_model
] = create_dataframe_for_direct_assessment_judging_response(
parsed_judging_response_obj, judging_model
)
# with st.expander("Structured output parsing response"):
st.write("Structured output parsing response:")
st.write(
st.session_state.direct_assessment_judging_by_response_and_judging_model_df[
response_model
][
judging_model
]
)
# Combined the dataframes for each judging model into a single dataframe for each
# response model.
if response_model not in st.session_state.direct_assessment_judging_df:
# Combine the dataframes for each judging model into a single dataframe.
combined_judging_df = pd.DataFrame()
for judging_model in st.session_state.selected_models:
combined_judging_df = pd.concat(
[
combined_judging_df,
st.session_state.direct_assessment_judging_by_response_and_judging_model_df[
response_model
][
judging_model
],
]
)
st.session_state.direct_assessment_judging_df[response_model] = (
combined_judging_df
)
with st.expander("Judging results from all judges"):
st.write(st.session_state.direct_assessment_judging_df[response_model])
# Uses the session state to plot the criteria scores and graphs for a given response
# model.
plot_criteria_scores(
st.session_state.direct_assessment_judging_df[response_model]
)
plot_per_judge_overall_scores(
st.session_state.direct_assessment_judging_df[response_model]
)
grouped = (
st.session_state.direct_assessment_judging_df[response_model]
.groupby(["judging_model"])
.agg({"score": ["mean"]})
.reset_index()
)
grouped.columns = ["judging_model", "overall_score"]
# Save the overall scores to the session state if it's not already there.
for record in grouped.to_dict(orient="records"):
st.session_state.direct_assessment_overall_scores[
get_ui_friendly_name(response_model)
][get_ui_friendly_name(record["judging_model"])] = record[
"overall_score"
]
overall_score = grouped["overall_score"].mean()
controversy = grouped["overall_score"].std()
st.write(f"Overall Score: {overall_score:.2f}")
st.write(f"Controversy: {controversy:.2f}")
# Mark judging as complete.
st.session_state.judging_status = "complete"
# Main Streamlit App
def main():
st.set_page_config(
page_title="Language Model Council Sandbox", page_icon="🏛️", layout="wide"
)
# Custom CSS for the chat display
center_css = """
<style>
h1, h2, h3, h6 { text-align: center; }
.chat-container {
display: flex;
align-items: flex-start;
margin-bottom: 10px;
}
.avatar {
width: 50px;
margin-right: 10px;
}
.message {
background-color: #f1f1f1;
padding: 10px;
border-radius: 10px;
width: 100%;
}
</style>
"""
st.markdown(center_css, unsafe_allow_html=True)
# App title and description
st.title("Language Model Council Sandbox")
st.markdown("###### Invoke a council of LLMs to judge each other's responses.")
st.markdown("###### [Paper](https://arxiv.org/abs/2406.08598)")
# Authentication system
if "authenticated" not in st.session_state:
st.session_state.authenticated = False
cols = st.columns([2, 1, 2])
if not st.session_state.authenticated:
with cols[1]:
with st.form("login_form"):
password = st.text_input("Password", type="password")
submit_button = st.form_submit_button("Login", use_container_width=True)
if submit_button:
if password == PASSWORD:
st.session_state.authenticated = True
st.success("Logged in successfully!")
st.rerun()
else:
st.error("Invalid credentials")
if st.session_state.authenticated:
if "responses_collected" not in st.session_state:
st.session_state["responses_collected"] = False
# Initialize session state for collecting responses.
if "responses" not in st.session_state:
st.session_state.responses = defaultdict(str)
# Initialize session state for token usage.
if "input_token_usage" not in st.session_state:
st.session_state["input_token_usage"] = defaultdict(int)
if "output_token_usage" not in st.session_state:
st.session_state["output_token_usage"] = defaultdict(int)
if "selected_models" not in st.session_state:
st.session_state["selected_models"] = []
if "selected_aggregator" not in st.session_state:
st.session_state["selected_aggregator"] = None
# Initialize session state for direct assessment judging.
if "direct_assessment_overall_score" not in st.session_state:
st.session_state.direct_assessment_overall_score = {}
if "direct_assessment_judging_df" not in st.session_state:
st.session_state.direct_assessment_judging_df = {}
if (
"direct_assessment_judging_by_response_and_judging_model_df"
not in st.session_state
):
st.session_state.direct_assessment_judging_by_response_and_judging_model_df = defaultdict(
dict
)
if "direct_assessment_judging_responses" not in st.session_state:
st.session_state.direct_assessment_judging_responses = defaultdict(dict)
if "direct_assessment_overall_scores" not in st.session_state:
st.session_state.direct_assessment_overall_scores = defaultdict(dict)
if "judging_status" not in st.session_state:
st.session_state.judging_status = "incomplete"
if "direct_assessment_config" not in st.session_state:
st.session_state.direct_assessment_config = {}
if "pairwise_comparison_config" not in st.session_state:
st.session_state.pairwise_comparison_config = {}
if "assessment_type" not in st.session_state:
st.session_state.assessment_type = None
with st.form(key="prompt_form"):
st.markdown("#### LLM Council Member Selection")
# Council and aggregator selection
selected_models = llm_council_selector()
selected_aggregator = aggregator_selector()
# Prompt input and submission form
st.markdown("#### Enter your prompt")
_, center_column, _ = st.columns([3, 5, 3])
with center_column:
user_prompt = st.text_area(
"Enter your prompt",
value="Say 'Hello World'",
key="user_prompt",
label_visibility="hidden",
)
submit_button = st.form_submit_button(
"Submit", use_container_width=True
)
if submit_button:
# Udpate state.
st.session_state.selected_models = selected_models
st.session_state.selected_aggregator = selected_aggregator
# Render the chats.
st_render_responses(user_prompt)
# Render chats generally even they are available, if the submit button isn't clicked.
elif st.session_state.responses:
st_render_responses(user_prompt)
# Judging.
if st.session_state.responses_collected:
with st.form(key="judging_form"):
st.markdown("#### Judging Configuration")
# Choose the type of assessment
assessment_type = st.radio(
"Select the type of assessment",
options=["Direct Assessment", "Pairwise Comparison"],
)
_, center_column, _ = st.columns([3, 5, 3])
# Depending on the assessment type, render different forms
if assessment_type == "Direct Assessment":
# Direct assessment prompt.
with center_column.expander("Direct Assessment Prompt"):
direct_assessment_prompt = st.text_area(
"Prompt for the Direct Assessment",
value=get_default_direct_assessment_prompt(
user_prompt=user_prompt
),
height=500,
key="direct_assessment_prompt",
)
# TODO: Add option to edit criteria list with a basic text field.
criteria_list = DEFAULT_DIRECT_ASSESSMENT_CRITERIA_LIST
with center_column:
judging_submit_button = st.form_submit_button(
"Submit Judging", use_container_width=True
)
if judging_submit_button:
# Update session state.
st.session_state.assessment_type = assessment_type
if st.session_state.assessment_type == "Direct Assessment":
st.session_state.direct_assessment_config = {
"prompt": direct_assessment_prompt,
"criteria_list": criteria_list,
}
st_direct_assessment_results(
user_prompt=st.session_state.user_prompt,
direct_assessment_prompt=direct_assessment_prompt,
criteria_list=criteria_list,
)
# If judging is complete, but the submit button is cleared, still render the results.
elif st.session_state.judging_status == "complete":
if st.session_state.assessment_type == "Direct Assessment":
st_direct_assessment_results(
user_prompt=st.session_state.user_prompt,
direct_assessment_prompt=direct_assessment_prompt,
criteria_list=criteria_list,
)
# Judging is complete.
# Render stuff that would be rendered that's not stream-specific.
# The session state now contains the overall scores for each response from each judge.
if st.session_state.judging_status == "complete":
st.write("#### Results")
overall_scores_df_raw = pd.DataFrame(
st.session_state.direct_assessment_overall_scores
).reset_index()
overall_scores_df = pd.melt(
overall_scores_df_raw,
id_vars=["index"],
var_name="response_model",
value_name="score",
).rename(columns={"index": "judging_model"})
# Print the overall winner.
overall_winner = overall_scores_df.loc[
overall_scores_df["score"].idxmax()
]
st.write(
f"**Overall Winner:** {get_ui_friendly_name(overall_winner['response_model'])}"
)
# Find how much the standard deviation overlaps with other models
# TODO: Calculate separability.
st.write(f"**Confidence:** {overall_winner['score']:.2f}")
left_column, right_column = st.columns([1, 1])
with left_column:
plot_overall_scores(overall_scores_df)
with right_column:
# All overall scores.
overall_scores_df = overall_scores_df[
["response_model", "judging_model", "score"]
]
overall_scores_df["response_model"] = overall_scores_df[
"response_model"
].apply(get_ui_friendly_name)
# overall_scores_df["judging_model"] = overall_scores_df[
# "judging_model"
# ].apply(get_ui_friendly_name)
with st.expander("Overall scores from all judges"):
st.write(st.session_state.direct_assessment_overall_scores)
st.dataframe(overall_scores_df_raw)
st.dataframe(overall_scores_df)
# All criteria scores.
with right_column:
all_scores_df = pd.DataFrame()
for (
response_model,
score_df,
) in st.session_state.direct_assessment_judging_df.items():
score_df["response_model"] = response_model
all_scores_df = pd.concat([all_scores_df, score_df])
all_scores_df = all_scores_df.reset_index()
all_scores_df = all_scores_df.drop(columns="index")
# Reorder the columns
all_scores_df = all_scores_df[
[
"response_model",
"judging_model",
"criteria",
"score",
"explanation",
]
]
# all_scores_df["response_model"] = all_scores_df[
# "response_model"
# ].apply(get_ui_friendly_name)
# all_scores_df["judging_model"] = all_scores_df[
# "judging_model"
# ].apply(get_ui_friendly_name)
with st.expander(
"Criteria-specific scores and explanations from all judges"
):
st.dataframe(all_scores_df)
# Token usage.
if st.session_state.responses:
st.divider()
with st.expander("Token Usage"):
st.write("Input tokens used.")
st.write(st.session_state.input_token_usage)
st.write(
f"Input Tokens Total: {sum(st.session_state.input_token_usage.values())}"
)
st.write("Output tokens used.")
st.write(st.session_state.output_token_usage)
st.write(
f"Output Tokens Total: {sum(st.session_state.output_token_usage.values())}"
)
else:
with cols[1]:
st.warning("Please log in to access this app.")
if __name__ == "__main__":
main()