__all__ = ['block', 'make_clickable_model', 'make_clickable_user', 'get_submissions'] import gradio as gr import pandas as pd import re import os import json import yaml import matplotlib.pyplot as plt import seaborn as sns import plotnine as p9 from src.about import * from src.saving_utils import * from src.vis_utils import * from src.bin.PROBE import run_probe def add_new_eval( human_file, skempi_file, model_name_textbox: str, revision_name_textbox: str, benchmark_type, similarity_tasks, function_prediction_aspect, function_prediction_dataset, family_prediction_dataset, ): representation_name = model_name_textbox if revision_name_textbox == '' else revision_name_textbox results = run_probe(benchmark_type, representation_name, human_file, skempi_file, similarity_tasks, function_prediction_aspect, function_prediction_dataset, family_prediction_dataset) return None # Function to update leaderboard dynamically based on user selection def update_leaderboard(selected_methods, selected_metrics): return get_baseline_df(selected_methods, selected_metrics) block = gr.Blocks() with block: gr.Markdown(LEADERBOARD_INTRODUCTION) with gr.Tabs(elem_classes="tab-buttons") as tabs: # table jmmmu bench with gr.TabItem("🏅 PROBE Leaderboard", elem_id="probe-benchmark-tab-table", id=1): method_names = pd.read_csv(CSV_RESULT_PATH)['method_name'].unique().tolist() metric_names = pd.read_csv(CSV_RESULT_PATH).columns.tolist() metrics_with_method = metric_names.copy() metric_names.remove('method_name') # Remove method_name from the metric options # Leaderboard section with method and metric selectors with gr.Row(): # Add method and metric selectors for leaderboard leaderboard_method_selector = gr.CheckboxGroup( choices=method_names, label="Select method_names for Leaderboard", value=method_names, interactive=True ) leaderboard_metric_selector = gr.CheckboxGroup( choices=metric_names, label="Select Metrics for Leaderboard", value=metric_names, interactive=True ) # Display the filtered leaderboard baseline_value = get_baseline_df(method_names, metric_names) baseline_header = ["method_name"] + metric_names baseline_datatype = ['markdown'] + ['number'] * len(metric_names) data_component = gr.components.Dataframe( value=baseline_value, headers=baseline_header, type="pandas", datatype=baseline_datatype, interactive=False, visible=True, ) # Update leaderboard when method/metric selection changes leaderboard_method_selector.change( update_leaderboard, inputs=[leaderboard_method_selector, leaderboard_metric_selector], outputs=data_component ) leaderboard_metric_selector.change( update_leaderboard, inputs=[leaderboard_method_selector, leaderboard_metric_selector], outputs=data_component ) # Dropdown for benchmark type benchmark_types = TASK_INFO + ['flexible'] benchmark_type_selector = gr.Dropdown(choices=benchmark_types, label="Select Benchmark Type for Visualization", value="flexible") # Dynamic metric selectors (will be updated based on benchmark type) x_metric_selector = gr.Dropdown(choices=[], label="Select X-axis Metric") y_metric_selector = gr.Dropdown(choices=[], label="Select Y-axis Metric") method_selector = gr.CheckboxGroup(choices=method_names, label="Select methods to visualize", interactive=True, value=method_names) # Button to draw the plot for the selected benchmark plot_button = gr.Button("Plot Visualization") plot_output = gr.Image(label="Plot") # Update metric selectors when benchmark type is chosen def update_metric_choices(benchmark_type): if benchmark_type == 'flexible': # Show all metrics for the flexible visualizer metric_names = df.columns.tolist() return gr.update(choices=metric_names, value=metric_names[0]), gr.update(choices=metric_names, value=metric_names[1]) elif benchmark_type in benchmark_specific_metrics: metrics = benchmark_specific_metrics[benchmark_type] return gr.update(choices=metrics, value=metrics[0]), gr.update(choices=metrics) return gr.update(choices=[]), gr.update(choices=[]) benchmark_type_selector.change( update_metric_choices, inputs=[benchmark_type_selector], outputs=[x_metric_selector, y_metric_selector] ) # Generate the plot based on user input plot_button.click( benchmark_plot, inputs=[benchmark_type_selector, method_selector, x_metric_selector, y_metric_selector], outputs=plot_output ) with gr.TabItem("📝 About", elem_id="probe-benchmark-tab-table", id=2): with gr.Row(): gr.Markdown(LLM_BENCHMARKS_TEXT, elem_classes="markdown-text") with gr.TabItem("🚀 Submit here! ", elem_id="probe-benchmark-tab-table", id=3): with gr.Row(): gr.Markdown(EVALUATION_QUEUE_TEXT, elem_classes="markdown-text") with gr.Row(): gr.Markdown("# ✉️✨ Submit your model's representation files here!", elem_classes="markdown-text") with gr.Row(): with gr.Column(): model_name_textbox = gr.Textbox( label="Model name", ) revision_name_textbox = gr.Textbox( label="Revision Model Name", ) benchmark_type = gr.CheckboxGroup( choices=TASK_INFO, label="Benchmark Type", interactive=True, ) similarity_tasks = gr.CheckboxGroup( choices=similarity_tasks_options, label="Select Similarity Tasks", interactive=True, ) function_prediction_aspect = gr.Radio( choices=function_prediction_aspect_options, label="Select Function Prediction Aspect", interactive=True, ) function_prediction_dataset = gr.Radio( choices=function_prediction_dataset_options, label="Select Function Prediction Dataset", interactive=True, ) family_prediction_dataset = gr.CheckboxGroup( choices=family_prediction_dataset_options, label="Select Family Prediction Dataset", interactive=True, ) with gr.Column(): human_file = gr.components.File(label="Click to Upload the representation file (csv) for Human dataset", file_count="single", type='filepath') skempi_file = gr.components.File(label="Click to Upload the representation file (csv) for SKEMPI dataset", file_count="single", type='filepath') submit_button = gr.Button("Submit Eval") submission_result = gr.Markdown() submit_button.click( add_new_eval, inputs=[ human_file, skempi_file, model_name_textbox, revision_name_textbox, benchmark_type, similarity_tasks, function_prediction_aspect, function_prediction_dataset, family_prediction_dataset, ], ) def refresh_data(): value = get_baseline_df(method_names, metric_names) return value with gr.Row(): data_run = gr.Button("Refresh") data_run.click(refresh_data, outputs=[data_component]) with gr.Accordion("Citation", open=False): citation_button = gr.Textbox( value=CITATION_BUTTON_TEXT, label=CITATION_BUTTON_LABEL, elem_id="citation-button", show_copy_button=True, ) block.launch()