app.py

# import gradio as gr
# import pandas as pd
# import os
# import re
# from datetime import datetime

# LEADERBOARD_FILE = "leaderboard.csv"  # File to store leaderboard data

# def clean_answer(answer):
#     if pd.isna(answer):
#         return None
#     answer = str(answer)
#     clean = re.sub(r'[^A-Da-d]', '', answer)
#     if clean:
#         first_letter = clean[0].upper()
#         if first_letter in ['A', 'B', 'C', 'D']:
#             return first_letter
#     return None

# def write_evaluation_results(results, output_file):
#     os.makedirs(os.path.dirname(output_file) if os.path.dirname(output_file) else '.', exist_ok=True)
#     timestamp = datetime.now().strftime("%Y-%m-%d %H:%M:%S")

#     output_text = [
#         f"Evaluation Results for Model: {results['model_name']}",
#         f"Timestamp: {timestamp}",
#         "-" * 50,
#         f"Overall Accuracy (including invalid): {results['overall_accuracy']:.2%}",
#         f"Accuracy (valid predictions only): {results['valid_accuracy']:.2%}",
#         f"Total Questions: {results['total_questions']}",
#         f"Valid Predictions: {results['valid_predictions']}",
#         f"Invalid/Malformed Predictions: {results['invalid_predictions']}",
#         f"Correct Predictions: {results['correct_predictions']}",
#         "\nPerformance by Field:",
#         "-" * 50
#     ]

#     for field, metrics in results['field_performance'].items():
#         field_results = [
#             f"\nField: {field}",
#             f"Accuracy (including invalid): {metrics['accuracy']:.2%}",
#             f"Accuracy (valid only): {metrics['valid_accuracy']:.2%}",
#             f"Correct: {metrics['correct']}/{metrics['total']}",
#             f"Invalid predictions: {metrics['invalid']}"
#         ]
#         output_text.extend(field_results)

#     with open(output_file, 'w') as f:
#         f.write('\n'.join(output_text))
#     print('\n'.join(output_text))
#     print(f"\nResults have been saved to: {output_file}")

# def update_leaderboard(results):
#     # Add results to the leaderboard file
#     new_entry = {
#         "Model Name": results['model_name'],
#         "Overall Accuracy": f"{results['overall_accuracy']:.2%}",
#         "Valid Accuracy": f"{results['valid_accuracy']:.2%}",
#         "Correct Predictions": results['correct_predictions'],
#         "Total Questions": results['total_questions'],
#         "Timestamp": datetime.now().strftime("%Y-%m-%d %H:%M:%S")
#     }
#     leaderboard_df = pd.DataFrame([new_entry])
#     if os.path.exists(LEADERBOARD_FILE):
#         existing_df = pd.read_csv(LEADERBOARD_FILE)
#         leaderboard_df = pd.concat([existing_df, leaderboard_df], ignore_index=True)
#     leaderboard_df.to_csv(LEADERBOARD_FILE, index=False)

# def display_leaderboard():
#     if not os.path.exists(LEADERBOARD_FILE):
#         return "Leaderboard is empty."
#     leaderboard_df = pd.read_csv(LEADERBOARD_FILE)
#     return leaderboard_df.to_markdown(index=False)

# def evaluate_predictions(prediction_file):
#     ground_truth_file = "ground_truth.csv"  # Specify the path to the ground truth file
#     if not prediction_file:
#         return "Prediction file not uploaded", None

#     if not os.path.exists(ground_truth_file):
#         return "Ground truth file not found", None

#     try:
#         predictions_df = pd.read_csv(prediction_file.name)
#         ground_truth_df = pd.read_csv(ground_truth_file)
        
#         # Extract model name
#         try:
#             filename = os.path.basename(prediction_file.name)
#             if "_" in filename and "." in filename:
#                 model_name = filename.split('_')[1].split('.')[0]
#             else:
#                 model_name = "unknown_model"
#         except IndexError:
#             model_name = "unknown_model"

#         # Merge dataframes
#         merged_df = pd.merge(
#             predictions_df, 
#             ground_truth_df, 
#             on='question_id', 
#             how='inner'
#         )
#         merged_df['pred_answer'] = merged_df['predicted_answer'].apply(clean_answer)
#         invalid_predictions = merged_df['pred_answer'].isna().sum()
#         valid_predictions = merged_df.dropna(subset=['pred_answer'])
#         correct_predictions = (valid_predictions['pred_answer'] == valid_predictions['Answer']).sum()
#         total_predictions = len(merged_df)
#         total_valid_predictions = len(valid_predictions)

#         overall_accuracy = correct_predictions / total_predictions if total_predictions > 0 else 0
#         valid_accuracy = (
#             correct_predictions / total_valid_predictions
#             if total_valid_predictions > 0
#             else 0
#         )

#         field_metrics = {}
#         for field in merged_df['Field'].unique():
#             field_data = merged_df[merged_df['Field'] == field]
#             field_valid_data = field_data.dropna(subset=['pred_answer'])

#             field_correct = (field_valid_data['pred_answer'] == field_valid_data['Answer']).sum()
#             field_total = len(field_data)
#             field_valid_total = len(field_valid_data)
#             field_invalid = field_total - field_valid_total

#             field_metrics[field] = {
#                 'accuracy': field_correct / field_total if field_total > 0 else 0,
#                 'valid_accuracy': field_correct / field_valid_total if field_valid_total > 0 else 0,
#                 'correct': field_correct,
#                 'total': field_total,
#                 'invalid': field_invalid
#             }

#         results = {
#             'model_name': model_name,
#             'overall_accuracy': overall_accuracy,
#             'valid_accuracy': valid_accuracy,
#             'total_questions': total_predictions,
#             'valid_predictions': total_valid_predictions,
#             'invalid_predictions': invalid_predictions,
#             'correct_predictions': correct_predictions,
#             'field_performance': field_metrics
#         }

#         update_leaderboard(results)
#         output_file = "evaluation_results.txt"
#         write_evaluation_results(results, output_file)
#         return "Evaluation completed successfully! Leaderboard updated.", output_file

#     except Exception as e:
#         return f"Error during evaluation: {str(e)}", None

# # Gradio Interface
# description = "Upload a prediction CSV file to evaluate predictions against the ground truth and update the leaderboard."

# demo = gr.Blocks()

# with demo:
#     gr.Markdown("# Prediction Evaluation Tool with Leaderboard")
#     with gr.Tab("Evaluate"):
#         file_input = gr.File(label="Upload Prediction CSV")
#         eval_status = gr.Textbox(label="Evaluation Status")
#         eval_results_file = gr.File(label="Download Evaluation Results")
#         eval_button = gr.Button("Evaluate")
#         eval_button.click(
#             evaluate_predictions, inputs=file_input, outputs=[eval_status, eval_results_file]
#         )
#     with gr.Tab("Leaderboard"):
#         leaderboard_text = gr.Textbox(label="Leaderboard", interactive=False)
#         refresh_button = gr.Button("Refresh Leaderboard")
#         refresh_button.click(display_leaderboard, outputs=leaderboard_text)

# if __name__ == "__main__":
#     demo.launch()


# import gradio as gr
# import pandas as pd
# import os
# import re
# from datetime import datetime

# LEADERBOARD_FILE = "leaderboard.csv"  # File to store leaderboard data
# LAST_UPDATED = datetime.now().strftime("%B %d, %Y")

# def clean_answer(answer):
#     if pd.isna(answer):
#         return None
#     answer = str(answer)
#     clean = re.sub(r'[^A-Da-d]', '', answer)
#     if clean:
#         return clean[0].upper()
#     return None


# def evaluate_predictions(prediction_file):
#     ground_truth_file = "ground_truth.csv"
#     if not os.path.exists(ground_truth_file):
#         return "Ground truth file not found."
#     if not prediction_file:
#         return "Prediction file not uploaded."

#     try:
#         predictions_df = pd.read_csv(prediction_file.name)
#         ground_truth_df = pd.read_csv(ground_truth_file)
#         model_name = os.path.basename(prediction_file.name).split('_')[1].split('.')[0]

#         merged_df = pd.merge(predictions_df, ground_truth_df, on='question_id', how='inner')
#         merged_df['pred_answer'] = merged_df['predicted_answer'].apply(clean_answer)

#         valid_predictions = merged_df.dropna(subset=['pred_answer'])
#         correct_predictions = (valid_predictions['pred_answer'] == valid_predictions['Answer']).sum()
#         total_predictions = len(merged_df)
#         total_valid_predictions = len(valid_predictions)

#         overall_accuracy = correct_predictions / total_predictions if total_predictions > 0 else 0
#         valid_accuracy = correct_predictions / total_valid_predictions if total_valid_predictions > 0 else 0

#         results = {
#             'model_name': model_name,
#             'overall_accuracy': overall_accuracy,
#             'valid_accuracy': valid_accuracy,
#             'correct_predictions': correct_predictions,
#             'total_questions': total_predictions,
#         }

#         update_leaderboard(results)
#         return "Evaluation completed successfully! Leaderboard updated."
#     except Exception as e:
#         return f"Error during evaluation: {str(e)}"


# # Build Gradio App

# def update_leaderboard(results):
#     """
#     Update the leaderboard file with new results.
#     """
#     new_entry = {
#         "Model Name": results['model_name'],
#         "Overall Accuracy": round(results['overall_accuracy'] * 100, 2),
#         "Valid Accuracy": round(results['valid_accuracy'] * 100, 2),
#         "Correct Predictions": results['correct_predictions'],
#         "Total Questions": results['total_questions'],
#         "Timestamp": datetime.now().strftime("%Y-%m-%d %H:%M:%S"),
#     }

#     # Convert new entry to DataFrame
#     new_entry_df = pd.DataFrame([new_entry])

#     # Append to leaderboard file
#     if not os.path.exists(LEADERBOARD_FILE):
#         # If file does not exist, create it with headers
#         new_entry_df.to_csv(LEADERBOARD_FILE, index=False)
#     else:
#         # Append without headers
#         new_entry_df.to_csv(LEADERBOARD_FILE, mode='a', index=False, header=False)


# def load_leaderboard():
#     """
#     Load the leaderboard from the leaderboard file.
#     """
#     if not os.path.exists(LEADERBOARD_FILE):
#         return pd.DataFrame({
#             "Model Name": [],
#             "Overall Accuracy": [],
#             "Valid Accuracy": [],
#             "Correct Predictions": [],
#             "Total Questions": [],
#             "Timestamp": [],
#         })
#     return pd.read_csv(LEADERBOARD_FILE)


# def evaluate_predictions_and_update_leaderboard(prediction_file):
#     """
#     Evaluate predictions and update the leaderboard.
#     """
#     ground_truth_file = "ground_truth.csv"
#     if not os.path.exists(ground_truth_file):
#         return "Ground truth file not found.", load_leaderboard()
#     if not prediction_file:
#         return "Prediction file not uploaded.", load_leaderboard()

#     try:
#         predictions_df = pd.read_csv(prediction_file.name)
#         ground_truth_df = pd.read_csv(ground_truth_file)
#         model_name = os.path.basename(prediction_file.name).split('_')[1].split('.')[0]

#         merged_df = pd.merge(predictions_df, ground_truth_df, on='question_id', how='inner')
#         merged_df['pred_answer'] = merged_df['predicted_answer'].apply(clean_answer)

#         valid_predictions = merged_df.dropna(subset=['pred_answer'])
#         correct_predictions = (valid_predictions['pred_answer'] == valid_predictions['Answer']).sum()
#         total_predictions = len(merged_df)
#         total_valid_predictions = len(valid_predictions)

#         overall_accuracy = correct_predictions / total_predictions if total_predictions > 0 else 0
#         valid_accuracy = correct_predictions / total_valid_predictions if total_valid_predictions > 0 else 0

#         results = {
#             'model_name': model_name,
#             'overall_accuracy': overall_accuracy,
#             'valid_accuracy': valid_accuracy,
#             'correct_predictions': correct_predictions,
#             'total_questions': total_predictions,
#         }

#         update_leaderboard(results)
#         return "Evaluation completed successfully! Leaderboard updated.", load_leaderboard()
#     except Exception as e:
#         return f"Error during evaluation: {str(e)}", load_leaderboard()

# # Build Gradio App
# with gr.Blocks() as demo:
#     gr.Markdown("# Prediction Evaluation Tool with Leaderboard")
    
#     with gr.Tabs():
#         # Submission Tab
#         with gr.TabItem("🏅 Submission"):
#             file_input = gr.File(label="Upload Prediction CSV")
#             eval_status = gr.Textbox(label="Evaluation Status", interactive=False)
#             leaderboard_table_preview = gr.Dataframe(
#                 value=load_leaderboard(),
#                 label="Leaderboard (Preview)",
#                 interactive=False,
#                 wrap=True,
#             )
#             eval_button = gr.Button("Evaluate and Update Leaderboard")
#             eval_button.click(
#                 evaluate_predictions_and_update_leaderboard,
#                 inputs=[file_input],
#                 outputs=[eval_status, leaderboard_table_preview],
#             )
        
#         # Leaderboard Tab
#         with gr.TabItem("🏅 Leaderboard"):
#             leaderboard_table = gr.Dataframe(
#                 value=load_leaderboard(),
#                 label="Leaderboard",
#                 interactive=False,
#                 wrap=True,
#             )
#             refresh_button = gr.Button("Refresh Leaderboard")
#             refresh_button.click(
#                 lambda: load_leaderboard(),
#                 inputs=[],
#                 outputs=[leaderboard_table],
#             )

#     gr.Markdown(f"Last updated on **{LAST_UPDATED}**")

# demo.launch()

import gradio as gr
import pandas as pd
import os
import re
from datetime import datetime

LEADERBOARD_FILE = "leaderboard.csv"  # File to store all submissions persistently
LAST_UPDATED = datetime.now().strftime("%B %d, %Y")

# Initialize the leaderboard file if it doesn't exist
if not os.path.exists(LEADERBOARD_FILE):
    pd.DataFrame(columns=[
        "Model Name", "Overall Accuracy", "Valid Accuracy",
        "Correct Predictions", "Total Questions", "Timestamp"
    ]).to_csv(LEADERBOARD_FILE, index=False)

def clean_answer(answer):
    """
    Clean and normalize the predicted answers.
    """
    if pd.isna(answer):
        return None
    answer = str(answer)
    clean = re.sub(r'[^A-Da-d]', '', answer)
    if clean:
        return clean[0].upper()
    return None

def update_leaderboard(results):
    """
    Append new submission results to the leaderboard file.
    """
    new_entry = {
        "Model Name": results['model_name'],
        "Overall Accuracy": round(results['overall_accuracy'] * 100, 2),
        "Valid Accuracy": round(results['valid_accuracy'] * 100, 2),
        "Correct Predictions": results['correct_predictions'],
        "Total Questions": results['total_questions'],
        "Timestamp": datetime.now().strftime("%Y-%m-%d %H:%M:%S"),
    }

    new_entry_df = pd.DataFrame([new_entry])
    new_entry_df.to_csv(LEADERBOARD_FILE, mode='a', index=False, header=False)

def load_leaderboard():
    """
    Load all submissions from the leaderboard file.
    """
    return pd.read_csv(LEADERBOARD_FILE)

def evaluate_predictions_and_update_leaderboard(prediction_file):
    """
    Evaluate predictions and append results to the leaderboard.
    """
    ground_truth_file = "ground_truth.csv"
    if not os.path.exists(ground_truth_file):
        return "Ground truth file not found.", load_leaderboard()
    if not prediction_file:
        return "Prediction file not uploaded.", load_leaderboard()

    try:
        # Load predictions and ground truth
        predictions_df = pd.read_csv(prediction_file.name)
        ground_truth_df = pd.read_csv(ground_truth_file)
        model_name = os.path.basename(prediction_file.name).split('_')[1].split('.')[0]

        # Merge predictions with ground truth
        merged_df = pd.merge(predictions_df, ground_truth_df, on='question_id', how='inner')
        merged_df['pred_answer'] = merged_df['predicted_answer'].apply(clean_answer)

        # Evaluate predictions
        valid_predictions = merged_df.dropna(subset=['pred_answer'])
        correct_predictions = (valid_predictions['pred_answer'] == valid_predictions['Answer']).sum()
        total_predictions = len(merged_df)
        total_valid_predictions = len(valid_predictions)

        # Calculate accuracy
        overall_accuracy = correct_predictions / total_predictions if total_predictions > 0 else 0
        valid_accuracy = correct_predictions / total_valid_predictions if total_valid_predictions > 0 else 0

        results = {
            'model_name': model_name,
            'overall_accuracy': overall_accuracy,
            'valid_accuracy': valid_accuracy,
            'correct_predictions': correct_predictions,
            'total_questions': total_predictions,
        }

        # Update leaderboard
        update_leaderboard(results)
        return "Evaluation completed successfully! Leaderboard updated.", load_leaderboard()
    except Exception as e:
        return f"Error during evaluation: {str(e)}", load_leaderboard()

# Gradio Interface
with gr.Blocks() as demo:
    gr.Markdown("# Prediction Evaluation Tool with Leaderboard")
    
    with gr.Tabs():
        # Submission Tab
        with gr.TabItem("🏅 Submission"):
            file_input = gr.File(label="Upload Prediction CSV")
            eval_status = gr.Textbox(label="Evaluation Status", interactive=False)
            leaderboard_table_preview = gr.Dataframe(
                value=load_leaderboard(),
                label="Leaderboard (Preview)",
                interactive=False,
                wrap=True,
            )
            eval_button = gr.Button("Evaluate and Update Leaderboard")
            eval_button.click(
                evaluate_predictions_and_update_leaderboard,
                inputs=[file_input],
                outputs=[eval_status, leaderboard_table_preview],
            )
        
        # Leaderboard Tab
        with gr.TabItem("🏅 Leaderboard"):
            leaderboard_table = gr.Dataframe(
                value=load_leaderboard(),
                label="Leaderboard",
                interactive=False,
                wrap=True,
            )
            refresh_button = gr.Button("Refresh Leaderboard")
            refresh_button.click(
                lambda: load_leaderboard(),
                inputs=[],
                outputs=[leaderboard_table],
            )

    gr.Markdown(f"Last updated on **{LAST_UPDATED}**")

demo.launch()