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import gradio as gr
from gradio_leaderboard import Leaderboard, SelectColumns, ColumnFilter
import config
from envs import RESULTS_REPO_ID, REPO_ID, API, HF_TOKEN
from pathlib import Path
import pandas as pd
import os
import json
from utils.data import parse_json_files
from utils.viz import create_scatter_plot, create_flow_chart, create_bar_chart
from utils.processing import check_and_process_uploads
from huggingface_hub import snapshot_download
from apscheduler.schedulers.background import BackgroundScheduler
from datetime import datetime
import json
import re
import markdown
import asyncio
from apscheduler.schedulers.asyncio import AsyncIOScheduler
import weave
from datetime import datetime
abs_path = Path(__file__).parent
def restart_space():
API.restart_space(repo_id=REPO_ID, token=HF_TOKEN)
# New function to download results
def download_latest_results():
print("Downloading latest results...")
snapshot_download(RESULTS_REPO_ID,
local_dir= "evals_upload",
repo_type='dataset',
tqdm_class=None,
etag_timeout=30,
max_workers=4,
)
print("Download complete.")
# Global variable to store preprocessed data
preprocessed_traces = {}
failure_reports = {}
def preprocess_traces():
global preprocessed_traces
global failure_reports
processed_dir = Path("evals_live")
for file in processed_dir.glob('*.json'):
with open(file, 'r') as f:
data = json.load(f)
agent_name = data['config']['agent_name']
benchmark_name = data['config']['benchmark_name']
if benchmark_name not in preprocessed_traces:
preprocessed_traces[benchmark_name] = {}
if benchmark_name not in failure_reports:
failure_reports[benchmark_name] = {}
try:
assert type(data['raw_logging_results']) == dict, f"Invalid format for raw_logging_results: {type(data['raw_logging_results'])}"
preprocessed_traces[benchmark_name][agent_name] = data['raw_logging_results']
except AssertionError as e:
preprocessed_traces[benchmark_name][agent_name] = None
except Exception as e:
print(f"Error preprocessing {file}: {e}")
preprocessed_traces[benchmark_name][agent_name] = None
try:
assert type(data['failure_report']) == dict, f"Invalid format for failure_report: {type(data['failure_report'])}"
failure_reports[benchmark_name][agent_name] = data['failure_report']
except AssertionError as e:
failure_reports[benchmark_name][agent_name] = None
except Exception as e:
print(f"Error preprocessing {file}: {e}")
failure_reports[benchmark_name][agent_name] = None
def get_analyzed_traces(agent_name, benchmark_name):
return preprocessed_traces.get(benchmark_name, {}).get(agent_name)
def get_failure_report(agent_name, benchmark_name):
return failure_reports.get(benchmark_name, {}).get(agent_name)
def update_agent_dropdown(benchmark_name, metric):
df = parse_json_files(os.path.join(abs_path, "evals_live"), benchmark_name)
agents = df['Agent Name'].tolist()
best_agent = get_best_agent(benchmark_name, metric)
return gr.Dropdown(choices=agents, value=best_agent, label="Select Agent")
def get_best_agent(benchmark_name, metric):
df = parse_json_files(os.path.join(abs_path, "evals_live"), benchmark_name)
return df.loc[df[metric].idxmax()]['Agent Name']
def update_task_analysis(benchmark_name, agent_name):
if not agent_name:
return "Please select an agent.", None, None, ""
analyzed_traces = get_analyzed_traces(agent_name, benchmark_name)
if not analyzed_traces:
return f"No analysis available for agent: {agent_name}", None, None, ""
task_ids = list(analyzed_traces.keys())
overview, flow_chart, _ = update_task_details(benchmark_name, agent_name, task_ids[0])
return overview, flow_chart, gr.Dropdown(choices=task_ids, value=task_ids[0], label="Select Task"), ""
def update_task_details(benchmark_name, agent_name, task_id):
if not task_id:
return "Please select a task.", None, ""
analyzed_traces = get_analyzed_traces(agent_name, benchmark_name)
if not analyzed_traces or task_id not in analyzed_traces:
return f"No analysis available for task: {task_id}", None, ""
analysis = analyzed_traces[task_id]
summary = analysis.get('task_analysis', {})
overview = f"## Task Overview\n\n{summary.get('overview', 'No overview available.')}\n\n"
overview += f"### Successes\n{summary.get('key_successes', 'No successes listed.')}\n\n"
overview += f"### Challenges\n{summary.get('main_challenges', 'No challenges listed.')}\n\n"
overview += f"### Overall Assessment\n{summary.get('overall_assessment', 'No assessment available.')}\n\n"
flow_chart = create_flow_chart(analysis['steps'])
return overview, flow_chart, ""
def format_call_info(step, step_index):
call_data = step['call_data']
analysis = step['analysis']
def format_json(obj):
# if isinstance(obj, dict) and 'choices' in obj:
# # Special handling for message content
# formatted_content = format_message_content(obj['choices'][0])
# return f'<div class="message-content">{formatted_content}</div>'
# else:
json_str = json.dumps(obj, indent=2)
json_str = json_str.replace(' ', ' ')
json_str = json_str.replace('\n', '<br>')
return f'<div class="json-wrapper">{json_str}</div>'
# Currently not used but we can enable it to format message content
def format_message_content(content):
# Convert Markdown to HTML
html_content = markdown.markdown(content)
# Replace ``` code blocks with styled pre blocks
html_content = re.sub(r'```python\n(.*?)```', lambda m: f'<pre class="code-block">{m.group(1)}</pre>', html_content, flags=re.DOTALL)
return html_content
formatted_info = f"""
<style>
.json-wrapper {{
white-space: pre-wrap;
word-wrap: break-word;
font-family: monospace;
max-height: 300px;
overflow-y: auto;
background-color: #f5f5f5;
padding: 10px;
border-radius: 5px;
}}
.message-content {{
white-space: normal;
word-wrap: break-word;
font-family: Arial, sans-serif;
max-height: 500px;
overflow-y: auto;
background-color: #ffffff;
padding: 10px;
border-radius: 5px;
border: 1px solid #e0e0e0;
}}
.code-block {{
background-color: #f0f0f0;
padding: 10px;
border-radius: 5px;
font-family: monospace;
white-space: pre-wrap;
word-wrap: break-word;
}}
</style>
<h2>Step {step_index + 1}: {analysis.get('headline', '')}</h2>
<h3>Call Metadata</h3>
<ul>
<li><strong>Weave Task ID:</strong> {call_data['weave_task_id']}</li>
<li><strong>Trace ID:</strong> {call_data['trace_id']}</li>
<li><strong>Project ID:</strong> {call_data['project_id']}</li>
<li><strong>Created Timestamp:</strong> {datetime.fromtimestamp(call_data['created_timestamp'])}</li>
<li><strong>Model:</strong> {call_data['inputs']['model']}</li>
</ul>
<h3>Inputs</h3>
{format_json(call_data['inputs'])}
<h3>Outputs</h3>
{format_json(call_data['outputs'])}
<h3>Usage</h3>
{format_json(call_data['summary'])}
<h3>Analysis</h3>
<ul>
<li><strong>Description:</strong> {analysis['description']}</li>
<li><strong>Assessment:</strong> {analysis['assessment']}</li>
<li><strong>Success:</strong> {analysis['success']}</li>
<li><strong>Action Type:</strong> {analysis['action_type']}</li>
</ul>
"""
return formatted_info
def update_failure_report(agent_name, benchmark_name):
failure_report = get_failure_report(agent_name, benchmark_name)
if not failure_report:
return "No failure report available for this agent.", None
# Create overview of failure categories
categories_overview = "## Failure Categories Overview\n\n"
for category in failure_report['failure_categories']:
categories_overview += f"### {category['category_name']}\n"
categories_overview += f"{category['description']}\n\n"
# Count tasks affected by each category
category_counts = {}
for task, classification in failure_report['task_classifications'].items():
category_id = classification['category_id']
category_counts[category_id] = category_counts.get(category_id, 0) + 1
# Prepare data for bar chart
categories = [cat['category_name'] for cat in failure_report['failure_categories']]
counts = [category_counts.get(str(i+1), 0) for i in range(len(categories))]
# Create bar chart
chart = create_bar_chart(categories, counts, "Failure Categories", "Number of Affected Tasks", "Failure Categories Distribution")
return categories_overview, chart
with gr.Blocks() as demo:
gr.Markdown("""
# 🥇 Agent Leaderboard
""")
with gr.Tabs():
with gr.Tab("USACO"):
with gr.Row():
with gr.Column(scale=2):
Leaderboard(
value=parse_json_files(os.path.join(abs_path, "evals_live"), 'usaco'),
select_columns=SelectColumns(
default_selection=config.USACO_ON_LOAD_COLUMNS,
cant_deselect=["Agent Name"],
label="Select Columns to Display:",
),
search_columns=config.USACO_SEARCH_COLUMNS,
column_widths={"Agent Name": 40,
"Accuracy": 20,
"Total Cost": 20},
)
with gr.Row():
scatter_plot = gr.Plot(create_scatter_plot(parse_json_files(os.path.join(abs_path, "evals_live"), 'usaco'), "Total Cost", "Accuracy", "Total Cost (in USD)", "Accuracy", ["Agent Name"]))
gr.Markdown("# Agent Monitor")
with gr.Row():
with gr.Column(scale=1):
agent_dropdown = gr.Dropdown(label="Select Agent")
with gr.Column(scale=1):
task_dropdown = gr.Dropdown(label="Select USACO Task")
with gr.Row():
task_overview = gr.Markdown()
with gr.Row():
flow_chart = gr.Plot(label="Task Flow")
# Initialize the agent dropdown with the best agent
demo.load(update_agent_dropdown, inputs=[gr.Textbox(value="usaco", visible=False), gr.Textbox(value="Accuracy", visible=False)], outputs=[agent_dropdown])
demo.load(update_task_analysis, inputs=[gr.Textbox(value="usaco", visible=False), agent_dropdown], outputs=[task_overview, flow_chart, task_dropdown, gr.Textbox(visible=False)])
agent_dropdown.change(update_task_analysis,
inputs=[gr.Textbox(value="usaco", visible=False), agent_dropdown],
outputs=[task_overview, flow_chart, task_dropdown, gr.Textbox(visible=False)])
task_dropdown.change(update_task_details,
inputs=[gr.Textbox(value="usaco", visible=False), agent_dropdown, task_dropdown],
outputs=[task_overview, flow_chart, gr.Textbox(visible=False)])
gr.Markdown("# Raw Predictions")
with gr.Row():
with gr.Column(scale=1):
raw_agent_dropdown = gr.Dropdown(label="Select Agent")
with gr.Column(scale=1):
raw_task_dropdown = gr.Dropdown(label="Select Task")
with gr.Column(scale=1):
raw_step_dropdown = gr.Dropdown(label="Select Step")
with gr.Row():
raw_call_details = gr.HTML()
def update_raw_task_dropdown(agent_name):
analyzed_traces = get_analyzed_traces(agent_name, "usaco")
if not analyzed_traces:
return gr.Dropdown(choices=[], label="Select Task"), gr.Dropdown(choices=[], label="Select Step"), f"No raw predictions data available for agent: {agent_name}."
task_ids = list(analyzed_traces.keys())
steps = analyzed_traces[task_ids[0]]['steps']
return gr.Dropdown(choices=task_ids, label="Select Task", value=task_ids[0]), gr.Dropdown(choices=[(f"Step {i+1}", i) for i in range(len(steps))], label="Select Step", value=0), update_raw_call_details(agent_name, task_ids[0], 0)
def update_raw_step_dropdown(agent_name, task_id):
analyzed_traces = get_analyzed_traces(agent_name, "usaco")
if not analyzed_traces or task_id not in analyzed_traces:
return gr.Dropdown(choices=[], label="Select Step", value="No data available.")
steps = analyzed_traces[task_id]['steps']
return gr.Dropdown(choices=[(f"Step {i+1}", i) for i in range(len(steps))], label="Select Step", value=0), format_call_info(steps[0], 0)
def update_raw_call_details(agent_name, task_id, step_index):
analyzed_traces = get_analyzed_traces(agent_name, "usaco")
if not analyzed_traces or task_id not in analyzed_traces:
return "No data available for this selection."
steps = analyzed_traces[task_id]['steps']
if step_index is None:
return "Invalid step selection."
step = steps[step_index]
return format_call_info(step, step_index)
# Initialize the raw agent dropdown with all agents
demo.load(update_agent_dropdown,
inputs=[gr.Textbox(value="usaco", visible=False), gr.Textbox(value="Accuracy", visible=False)],
outputs=[raw_agent_dropdown])
demo.load(update_raw_task_dropdown,
inputs=[raw_agent_dropdown],
outputs=[raw_task_dropdown, raw_step_dropdown])
demo.load(update_raw_call_details,
inputs=[raw_agent_dropdown, raw_task_dropdown, raw_step_dropdown],
outputs=[raw_call_details])
raw_agent_dropdown.change(update_raw_task_dropdown,
inputs=[raw_agent_dropdown],
outputs=[raw_task_dropdown, raw_step_dropdown, raw_call_details])
raw_task_dropdown.change(update_raw_step_dropdown,
inputs=[raw_agent_dropdown, raw_task_dropdown],
outputs=[raw_step_dropdown, raw_call_details])
raw_step_dropdown.change(update_raw_call_details,
inputs=[raw_agent_dropdown, raw_task_dropdown, raw_step_dropdown],
outputs=[raw_call_details])
with gr.Tab("SWE-Bench Lite"):
with gr.Row():
with gr.Column(scale=2):
Leaderboard(
value=parse_json_files(os.path.join(abs_path, "evals_live"), 'swebench_lite'),
select_columns=SelectColumns(
default_selection=config.SWEBENCH_ON_LOAD_COLUMNS,
cant_deselect=["Agent Name"],
label="Select Columns to Display:",
),
search_columns=config.SWEBENCH_SEARCH_COLUMNS,
column_widths={"Agent Name": 40,
"Accuracy": 20,
"Total Cost": 20},
)
with gr.Row():
scatter_plot = gr.Plot(create_scatter_plot(parse_json_files(os.path.join(abs_path, "evals_live"), 'swebench_lite'), "Total Cost", "Accuracy", "Total Cost (in USD)", "Accuracy", ["Agent Name"]))
gr.Markdown("# Failure Report")
with gr.Row():
with gr.Column(scale=1):
failure_report_agent_dropdown = gr.Dropdown(label="Select Agent for Failure Report")
with gr.Row():
with gr.Column(scale=1):
failure_categories_overview = gr.Markdown()
with gr.Column(scale=1):
failure_categories_chart = gr.Plot()
# Initialize the failure report agent dropdown with all agents
demo.load(update_agent_dropdown,
inputs=[gr.Textbox(value="swebench_lite", visible=False), gr.Textbox(value="Accuracy", visible=False)],
outputs=[failure_report_agent_dropdown])
# Update failure report when agent is selected
failure_report_agent_dropdown.change(update_failure_report,
inputs=[failure_report_agent_dropdown, gr.Textbox(value="swebench_lite", visible=False)],
outputs=[failure_categories_overview, failure_categories_chart])
gr.Markdown("# Raw Predictions")
with gr.Row():
with gr.Column(scale=1):
raw_agent_dropdown = gr.Dropdown(label="Select Agent")
with gr.Column(scale=1):
raw_task_dropdown = gr.Dropdown(label="Select Task")
with gr.Column(scale=1):
raw_step_dropdown = gr.Dropdown(label="Select Step")
with gr.Row():
raw_call_details = gr.HTML()
def update_raw_task_dropdown(agent_name):
analyzed_traces = get_analyzed_traces(agent_name, "swebench_lite")
if not analyzed_traces:
return gr.Dropdown(choices=[], label="Select Task"), gr.Dropdown(choices=[], label="Select Step"), f"No raw predictions data available for agent: {agent_name}."
task_ids = list(analyzed_traces.keys())
steps = analyzed_traces[task_ids[0]]['steps']
return gr.Dropdown(choices=task_ids, label="Select Task", value=task_ids[0]), gr.Dropdown(choices=[(f"Step {i+1}", i) for i in range(len(steps))], label="Select Step", value=0), update_raw_call_details(agent_name, task_ids[0], 0)
def update_raw_step_dropdown(agent_name, task_id):
analyzed_traces = get_analyzed_traces(agent_name, "swebench_lite")
if not analyzed_traces or task_id not in analyzed_traces:
return gr.Dropdown(choices=[], label="Select Step", value="No data available.")
steps = analyzed_traces[task_id]['steps']
return gr.Dropdown(choices=[(f"Step {i+1}", i) for i in range(len(steps))], label="Select Step", value=0), format_call_info(steps[0], 0)
def update_raw_call_details(agent_name, task_id, step_index):
analyzed_traces = get_analyzed_traces(agent_name, "swebench_lite")
if not analyzed_traces or task_id not in analyzed_traces:
return "No data available for this selection."
steps = analyzed_traces[task_id]['steps']
if step_index is None:
return "Invalid step selection."
step = steps[step_index]
return format_call_info(step, step_index)
# Initialize the raw agent dropdown with all agents
demo.load(update_agent_dropdown,
inputs=[gr.Textbox(value="swebench_lite", visible=False), gr.Textbox(value="Accuracy", visible=False)],
outputs=[raw_agent_dropdown])
demo.load(update_raw_task_dropdown,
inputs=[raw_agent_dropdown],
outputs=[raw_task_dropdown, raw_step_dropdown])
demo.load(update_raw_call_details,
inputs=[raw_agent_dropdown, raw_task_dropdown, raw_step_dropdown],
outputs=[raw_call_details])
raw_agent_dropdown.change(update_raw_task_dropdown,
inputs=[raw_agent_dropdown],
outputs=[raw_task_dropdown, raw_step_dropdown, raw_call_details])
raw_task_dropdown.change(update_raw_step_dropdown,
inputs=[raw_agent_dropdown, raw_task_dropdown],
outputs=[raw_step_dropdown, raw_call_details])
raw_step_dropdown.change(update_raw_call_details,
inputs=[raw_agent_dropdown, raw_task_dropdown, raw_step_dropdown],
outputs=[raw_call_details])
with gr.Tab("SWE-Bench Verified"):
with gr.Row():
with gr.Column(scale=2):
Leaderboard(
value=parse_json_files(os.path.join(abs_path, "evals_live"), 'swebench_verified'),
select_columns=SelectColumns(
default_selection=config.SWEBENCH_ON_LOAD_COLUMNS,
cant_deselect=["Agent Name"],
label="Select Columns to Display:",
),
search_columns=config.SWEBENCH_SEARCH_COLUMNS,
column_widths={"Agent Name": 40,
"Accuracy": 20,
"Total Cost": 20},
)
with gr.Row():
scatter_plot = gr.Plot(create_scatter_plot(parse_json_files(os.path.join(abs_path, "evals_live"), 'swebench_verified'), "Total Cost", "Accuracy", "Total Cost (in USD)", "Accuracy", ["Agent Name"]))
gr.Markdown("# Failure Report")
with gr.Row():
with gr.Column(scale=1):
failure_report_agent_dropdown = gr.Dropdown(label="Select Agent for Failure Report")
with gr.Row():
with gr.Column(scale=1):
failure_categories_overview = gr.Markdown()
with gr.Column(scale=1):
failure_categories_chart = gr.Plot()
# Initialize the failure report agent dropdown with all agents
demo.load(update_agent_dropdown,
inputs=[gr.Textbox(value="swebench_verified", visible=False), gr.Textbox(value="Accuracy", visible=False)],
outputs=[failure_report_agent_dropdown])
# Update failure report when agent is selected
failure_report_agent_dropdown.change(update_failure_report,
inputs=[failure_report_agent_dropdown, gr.Textbox(value="swebench_verified", visible=False)],
outputs=[failure_categories_overview, failure_categories_chart])
gr.Markdown("# Raw Predictions")
with gr.Row():
with gr.Column(scale=1):
raw_agent_dropdown = gr.Dropdown(label="Select Agent")
with gr.Column(scale=1):
raw_task_dropdown = gr.Dropdown(label="Select Task")
with gr.Column(scale=1):
raw_step_dropdown = gr.Dropdown(label="Select Step")
with gr.Row():
raw_call_details = gr.HTML()
def update_raw_task_dropdown(agent_name):
analyzed_traces = get_analyzed_traces(agent_name, "swebench_verified")
if not analyzed_traces:
return gr.Dropdown(choices=[], label="Select Task"), gr.Dropdown(choices=[], label="Select Step"), f"No raw predictions data available for agent: {agent_name}."
task_ids = list(analyzed_traces.keys())
steps = analyzed_traces[task_ids[0]]['steps']
return gr.Dropdown(choices=task_ids, label="Select Task", value=task_ids[0]), gr.Dropdown(choices=[(f"Step {i+1}", i) for i in range(len(steps))], label="Select Step", value=0), update_raw_call_details(agent_name, task_ids[0], 0)
def update_raw_step_dropdown(agent_name, task_id):
analyzed_traces = get_analyzed_traces(agent_name, "swebench_verified")
if not analyzed_traces or task_id not in analyzed_traces:
return gr.Dropdown(choices=[], label="Select Step", value="No data available.")
steps = analyzed_traces[task_id]['steps']
return gr.Dropdown(choices=[(f"Step {i+1}", i) for i in range(len(steps))], label="Select Step", value=0), format_call_info(steps[0], 0)
def update_raw_call_details(agent_name, task_id, step_index):
analyzed_traces = get_analyzed_traces(agent_name, "swebench_verified")
if not analyzed_traces or task_id not in analyzed_traces:
return "No data available for this selection."
steps = analyzed_traces[task_id]['steps']
if step_index is None:
return "Invalid step selection."
step = steps[step_index]
return format_call_info(step, step_index)
# Initialize the raw agent dropdown with all agents
demo.load(update_agent_dropdown,
inputs=[gr.Textbox(value="swebench_verified", visible=False), gr.Textbox(value="Accuracy", visible=False)],
outputs=[raw_agent_dropdown])
demo.load(update_raw_task_dropdown,
inputs=[raw_agent_dropdown],
outputs=[raw_task_dropdown, raw_step_dropdown])
demo.load(update_raw_call_details,
inputs=[raw_agent_dropdown, raw_task_dropdown, raw_step_dropdown],
outputs=[raw_call_details])
raw_agent_dropdown.change(update_raw_task_dropdown,
inputs=[raw_agent_dropdown],
outputs=[raw_task_dropdown, raw_step_dropdown, raw_call_details])
raw_task_dropdown.change(update_raw_step_dropdown,
inputs=[raw_agent_dropdown, raw_task_dropdown],
outputs=[raw_step_dropdown, raw_call_details])
raw_step_dropdown.change(update_raw_call_details,
inputs=[raw_agent_dropdown, raw_task_dropdown, raw_step_dropdown],
outputs=[raw_call_details])
with gr.Tab("About"):
gr.Markdown((Path(__file__).parent / "about.md").read_text())
async def main():
# Preprocess traces
preprocess_traces()
# # Download the results from the Hugging Face Hub
await asyncio.to_thread(download_latest_results)
# Check for new uploads and process them
await check_and_process_uploads()
scheduler = AsyncIOScheduler()
scheduler.add_job(restart_space, "interval", hours=1)
scheduler.add_job(download_latest_results, "interval", hours=1)
scheduler.add_job(check_and_process_uploads, "interval", hours=1)
scheduler.start()
await demo.launch()
if __name__ == "__main__":
weave.init(f'leaderboard_testing_{datetime.now().strftime("%Y%m%d%H%M%S")}')
asyncio.run(main()) |