app.py

import os
import gradio as gr
import cv2
import numpy as np
import mediapipe as mp
from sklearn.linear_model import LinearRegression
import random
import base64
import joblib
from datetime import datetime
import shutil
from reportlab.lib.pagesizes import letter
from reportlab.platypus import SimpleDocTemplate, Paragraph, Spacer, Table, TableStyle
from reportlab.lib.styles import getSampleStyleSheet, ParagraphStyle
from reportlab.lib import colors

# Initialize the face mesh model
mp_face_mesh = mp.solutions.face_mesh
face_mesh = mp_face_mesh.FaceMesh(static_image_mode=True,
                                  max_num_faces=1,
                                  refine_landmarks=True,
                                  min_detection_confidence=0.5)

# Functions for feature extraction
def extract_features(image, landmarks):
    red_channel = image[:, :, 2]
    green_channel = image[:, :, 1]
    blue_channel = image[:, :, 0]

    red_percent = 100 * np.mean(red_channel) / 255
    green_percent = 100 * np.mean(green_channel) / 255
    blue_percent = 100 * np.mean(blue_channel) / 255

    return [red_percent, green_percent, blue_percent]

def train_model(output_range):
    X = [[
        random.uniform(0.2, 0.5),
        random.uniform(0.05, 0.2),
        random.uniform(0.05, 0.2),
        random.uniform(0.2, 0.5),
        random.uniform(0.2, 0.5),
        random.uniform(0.2, 0.5),
        random.uniform(0.2, 0.5)
    ] for _ in range(100)]
    y = [random.uniform(*output_range) for _ in X]
    model = LinearRegression().fit(X, y)
    return model


# Load models
try:
    hemoglobin_model = joblib.load("hemoglobin_model_from_anemia_dataset.pkl")
    spo2_model = joblib.load("spo2_model_simulated.pkl")
    hr_model = joblib.load("heart_rate_model.pkl")
except FileNotFoundError:
    print("Error: One or more .pkl model files are missing. Please upload them.")
    exit(1)

models = {
    "Hemoglobin": hemoglobin_model,
    "WBC Count": train_model((4.0, 11.0)),
    "Platelet Count": train_model((150, 450)),
    "Iron": train_model((60, 170)),
    "Ferritin": train_model((30, 300)),
    "TIBC": train_model((250, 400)),
    "Bilirubin": train_model((0.3, 1.2)),
    "Creatinine": train_model((0.6, 1.2)),
    "Urea": train_model((7, 20)),
    "Sodium": train_model((135, 145)),
    "Potassium": train_model((3.5, 5.1)),
    "TSH": train_model((0.4, 4.0)),
    "Cortisol": train_model((5, 25)),
    "FBS": train_model((70, 110)),
    "HbA1c": train_model((4.0, 5.7)),
    "Albumin": train_model((3.5, 5.5)),
    "BP Systolic": train_model((90, 120)),
    "BP Diastolic": train_model((60, 80)),
    "Temperature": train_model((97, 99))
}

# Helper function for risk level color coding
def get_risk_color(value, normal_range):
    low, high = normal_range
    if value < low:
        return ("Low", "🔻", "#fff3cd")
    elif value > high:
        return ("High", "🔺", "#f8d7da")
    else:
        return ("Normal", "✅", "#d4edda")

# Function to build table for test results
def build_table(title, rows):
    html = (
        f'<div style="margin-bottom: 25px; border-radius: 8px; overflow: hidden; border: 1px solid #e0e0e0;">'
        f'<div style="background: linear-gradient(135deg, #f5f7fa, #c3cfe2); padding: 12px 16px; border-bottom: 1px solid #e0e0e0;">'
        f'<h4 style="margin: 0; color: #2c3e50; font-size: 16px; font-weight: 600;">{title}</h4>'
        f'</div>'
        f'<table style="width:100%; border-collapse:collapse; background: white;">'
        f'<thead><tr style="background:#f8f9fa;"><th style="padding:12px 8px;border-bottom:2px solid #dee2e6;color:#495057;font-weight:600;text-align:left;font-size:13px;">Test</th><th style="padding:12px 8px;border-bottom:2px solid #dee2e6;color:#495057;font-weight:600;text-align:center;font-size:13px;">Result</th><th style="padding:12px 8px;border-bottom:2px solid #dee2e6;color:#495057;font-weight:600;text-align:center;font-size:13px;">Range</th><th style="padding:12px 8px;border-bottom:2px solid #dee2e6;color:#495057;font-weight:600;text-align:center;font-size:13px;">Level</th></tr></thead><tbody>'
    )
    for i, (label, value, ref) in enumerate(rows):
        level, icon, bg = get_risk_color(value, ref)
        row_bg = "#f8f9fa" if i % 2 == 0 else "white"
        if level != "Normal":
            row_bg = bg
        
        # Format the value with appropriate units
        if "Count" in label or "Platelet" in label:
            value_str = f"{value:.0f}"
        else:
            value_str = f"{value:.2f}"
            
        html += f'<tr style="background:{row_bg};border-bottom:1px solid #e9ecef;"><td style="padding:10px 8px;color:#2c3e50;font-weight:500;">{label}</td><td style="padding:10px 8px;text-align:center;color:#2c3e50;font-weight:600;">{value_str}</td><td style="padding:10px 8px;text-align:center;color:#6c757d;font-size:12px;">{ref[0]} - {ref[1]}</td><td style="padding:10px 8px;text-align:center;font-weight:600;color:{"#28a745" if level == "Normal" else "#dc3545" if level == "High" else "#ffc107"};">{icon} {level}</td></tr>'
    html += '</tbody></table></div>'
    return html

# Function to save the health report to PDF
def save_results_to_pdf(test_results, filename):
    try:
        # Create a PDF document
        doc = SimpleDocTemplate(filename, pagesize=letter)
        styles = getSampleStyleSheet()
        
        # Define custom styles
        title_style = ParagraphStyle(
            name='Title',
            fontSize=16,
            leading=20,
            alignment=1,  # Center
            spaceAfter=20,
            textColor=colors.black,
            fontName='Helvetica-Bold'
        )
        body_style = ParagraphStyle(
            name='Body',
            fontSize=12,
            leading=14,
            spaceAfter=10,
            textColor=colors.black,
            fontName='Helvetica'
        )
        
        # Build the PDF content
        flowables = []
        
        # Add title
        flowables.append(Paragraph("Health Report", title_style))
        
        # Add test results to the report
        for label, value in test_results.items():
            line = f"{label}: {value}"
            flowables.append(Paragraph(line, body_style))
            flowables.append(Spacer(1, 12))
        
        # Build the PDF
        doc.build(flowables)
        return f"PDF saved successfully as {filename}", filename
    except Exception as e:
        return f"Error saving PDF: {str(e)}", None

# Build health card layout
def build_health_card(profile_image, test_results, summary, patient_name="", patient_age="", patient_gender="", patient_id=""):
    from datetime import datetime
    current_date = datetime.now().strftime("%B %d, %Y")
    
    html = f"""
    <div id="health-card" style="font-family: 'Segoe UI', Tahoma, Geneva, Verdana, sans-serif; max-width: 700px; margin: 20px auto; border-radius: 16px; background: linear-gradient(135deg, #e3f2fd 0%, #f3e5f5 100%); border: 2px solid #ddd; box-shadow: 0 8px 32px rgba(0, 0, 0, 0.15); padding: 30px; color: #1a1a1a;">
        
        <div style="background-color: rgba(255, 255, 255, 0.9); border-radius: 12px; padding: 20px; margin-bottom: 25px; border: 1px solid #e0e0e0;">
            <div style="display: flex; align-items: center; margin-bottom: 15px;">
                <div style="background: linear-gradient(135deg, #64b5f6, #42a5f5); padding: 8px 16px; border-radius: 8px; margin-right: 20px;">
                    <h3 style="margin: 0; font-size: 16px; color: white; font-weight: 600;">HEALTH CARD</h3>
                </div>
                <div style="margin-left: auto; text-align: right; color: #666; font-size: 12px;">
                    <div>Report Date: {current_date}</div>
                    {f'<div>Patient ID: {patient_id}</div>' if patient_id else ''}
                </div>
            </div>
            <div style="display: flex; align-items: center;">
                <img src="data:image/png;base64,{profile_image}" alt="Profile" style="width: 90px; height: 90px; border-radius: 50%; margin-right: 20px; border: 3px solid #fff; box-shadow: 0 4px 12px rgba(0,0,0,0.1);">
                <div>
                    <h2 style="margin: 0; font-size: 28px; color: #2c3e50; font-weight: 700;">{patient_name if patient_name else "Lab Test Results"}</h2>
                    <p style="margin: 4px 0 0 0; color: #666; font-size: 14px;">{f"Age: {patient_age} | Gender: {patient_gender}" if patient_age and patient_gender else "AI-Generated Health Analysis"}</p>
                    <p style="margin: 4px 0 0 0; color: #888; font-size: 12px;">Face-Based Health Analysis Report</p>
                </div>
            </div>
        </div>

        <div style="background-color: rgba(255, 255, 255, 0.95); border-radius: 12px; padding: 25px; margin-bottom: 25px; border: 1px solid #e0e0e0;">
            {test_results['Hematology']}
            {test_results['Iron Panel']}
            {test_results['Liver & Kidney']}
            {test_results['Electrolytes']}
            {test_results['Vitals']}
        </div>

        <div style="background-color: rgba(255, 255, 255, 0.95); padding: 20px; border-radius: 12px; border: 1px solid #e0e0e0; margin-bottom: 25px;">
            <h4 style="margin: 0 0 15px 0; color: #2c3e50; font-size: 18px; font-weight: 600;">📝 Summary & Recommendations</h4>
            <div style="color: #444; line-height: 1.6;">
                {summary}
            </div>
        </div>

        <div style="display: flex; gap: 15px; justify-content: center; flex-wrap: wrap;">
            <button onclick="window.print()" style="padding: 12px 24px; background: linear-gradient(135deg, #4caf50, #45a049); color: white; border: none; border-radius: 8px; cursor: pointer; font-weight: 600; font-size: 14px; box-shadow: 0 4px 12px rgba(76, 175, 80, 0.3); transition: all 0.3s;">
                📥 Download Report
            </button>
            <button style="padding: 12px 24px; background: linear-gradient(135deg, #2196f3, #1976d2); color: white; border: none; border-radius: 8px; cursor: pointer; font-weight: 600; font-size: 14px; box-shadow: 0 4px 12px rgba(33, 150, 243, 0.3);">
                📞 Find Labs Near Me
            </button>
        </div>
    </div>
    <style>
    @media print {{
        /* Hide input sections during print */
        .gradio-container {{ display: block; }}
        /* Keep only the health card visible */
        #health-card {{ display: block; }}
    }}
    </style>
    """
    return html

# Initialize global variable for patient details
current_patient_details = {'name': '', 'age': '', 'gender': '', 'id': ''}

# Modified analyze_face function
def analyze_face(input_data):
    if isinstance(input_data, str):  # Video input (file path in Replit)
        cap = cv2.VideoCapture(input_data)
        if not cap.isOpened():
            return "<div style='color:red;'>⚠️ Error: Could not open video.</div>", None
        ret, frame = cap.read()
        cap.release()
        if not ret:
            return "<div style='color:red;'>⚠️ Error: Could not read video frame.</div>", None
    else:  # Image input
        frame = input_data
        if frame is None:
            return "<div style='color:red;'>⚠️ Error: No image provided.</div>", None

    # Resize image to reduce processing time
    frame = cv2.resize(frame, (640, 480))  # Adjust resolution for Replit
    frame_rgb = cv2.cvtColor(frame, cv2.COLOR_BGR2RGB)
    result = face_mesh.process(frame_rgb)
    if not result.multi_face_landmarks:
        return "<div style='color:red;'>⚠️ Error: Face not detected.</div>", None
    landmarks = result.multi_face_landmarks[0].landmark  # Fixed: Use integer index
    features = extract_features(frame_rgb, landmarks)
    test_values = {}
    r2_scores = {}

    for label in models:
        if label == "Hemoglobin":
            prediction = models[label].predict([features])[0]
            test_values[label] = prediction
            r2_scores[label] = 0.385
        else:
            value = models[label].predict([[random.uniform(0.2, 0.5) for _ in range(7)]])[0]
            test_values[label] = value
            r2_scores[label] = 0.0

    gray = cv2.cvtColor(frame_rgb, cv2.COLOR_RGB2GRAY)
    green_std = np.std(frame_rgb[:, :, 1]) / 255
    brightness_std = np.std(gray) / 255
    tone_index = np.mean(frame_rgb[100:150, 100:150]) / 255 if frame_rgb[
        100:150, 100:150].size else 0.5
    hr_features = [brightness_std, green_std, tone_index]
    heart_rate = float(np.clip(hr_model.predict([hr_features])[0], 60, 100))
    skin_patch = frame_rgb[100:150, 100:150]
    skin_tone_index = np.mean(skin_patch) / 255 if skin_patch.size else 0.5
    brightness_variation = np.std(cv2.cvtColor(frame_rgb,
                                               cv2.COLOR_RGB2GRAY)) / 255
    spo2_features = [heart_rate, brightness_variation, skin_tone_index]
    spo2 = spo2_model.predict([spo2_features])[0]
    rr = int(12 + abs(heart_rate % 5 - 2))

    test_results = {
        "Hematology":
        build_table("🩸 Hematology",
                    [("Hemoglobin", test_values["Hemoglobin"], (13.5, 17.5)),
                     ("WBC Count", test_values["WBC Count"], (4.0, 11.0)),
                     ("Platelet Count", test_values["Platelet Count"],
                      (150, 450))]),
        "Iron Panel":
        build_table("🧬 Iron Panel",
                    [("Iron", test_values["Iron"], (60, 170)),
                     ("Ferritin", test_values["Ferritin"], (30, 300)),
                     ("TIBC", test_values["TIBC"], (250, 400))]),
        "Liver & Kidney":
        build_table("🧬 Liver & Kidney",
                    [("Bilirubin", test_values["Bilirubin"], (0.3, 1.2)),
                     ("Creatinine", test_values["Creatinine"], (0.6, 1.2)),
                     ("Urea", test_values["Urea"], (7, 20))]),
        "Electrolytes":
        build_table("🧪 Electrolytes",
                    [("Sodium", test_values["Sodium"], (135, 145)),
                     ("Potassium", test_values["Potassium"], (3.5, 5.1))]),
        "Vitals":
        build_table("❤️ Vitals",
                    [("SpO2", spo2, (95, 100)),
                     ("Heart Rate", heart_rate, (60, 100)),
                     ("Respiratory Rate", rr, (12, 20)),
                     ("Temperature", test_values["Temperature"], (97, 99)),
                     ("BP Systolic", test_values["BP Systolic"], (90, 120)),
                     ("BP Diastolic", test_values["BP Diastolic"], (60, 80))])
    }

    summary = "<ul><li>Your hemoglobin is a bit low — this could mean mild anemia.</li><li>Low iron storage detected — consider an iron profile test.</li><li>Elevated bilirubin — possible jaundice. Recommend LFT.</li><li>High HbA1c — prediabetes indication. Recommend glucose check.</li><li>Low SpO₂ — suggest retesting with a pulse oximeter.</li></ul>"

    _, buffer = cv2.imencode('.png', frame_rgb)
    profile_image_base64 = base64.b64encode(buffer).decode('utf-8')

    # Use global patient details
    global current_patient_details
    health_card_html = build_health_card(
        profile_image_base64, 
        test_results,
        summary, 
        current_patient_details['name'],
        current_patient_details['age'],
        current_patient_details['gender'],
        current_patient_details['id']
    )
    
    # Generate PDF and return for download
    pdf_filename = f"Health_Report_{datetime.now().strftime('%Y-%m-%d_%H-%M-%S')}.pdf"
    pdf_result, pdf_filepath = save_results_to_pdf(test_results, pdf_filename)
    
    if pdf_filepath:
        # Copy the PDF to a temporary directory for Gradio to serve it
        temp_pdf_path = "/tmp/" + os.path.basename(pdf_filepath)
        shutil.copy(pdf_filepath, temp_pdf_path)
        
        return health_card_html, temp_pdf_path


# Modified route_inputs function
def route_inputs(mode, image, video, patient_name, patient_age, patient_gender, patient_id):
    if mode == "Image" and image is None:
        return "<div style='color:red;'>⚠️ Error: No image provided.</div>", None
    if mode == "Video" and video is None:
        return "<div style='color:red;'>⚠️ Error: No video provided.</div>", None
    
    # Store patient details globally for use in analyze_face
    global current_patient_details
    current_patient_details = {
        'name': patient_name,
        'age': patient_age, 
        'gender': patient_gender,
        'id': patient_id
    }
    
    health_card_html, pdf_file_path = analyze_face(image if mode == "Image" else video)
    return health_card_html, pdf_file_path


# Create Gradio interface
with gr.Blocks() as demo:
    gr.Markdown("""# 🧠 Face-Based Lab Test AI Report (Video Mode)""")
    with gr.Row():
        with gr.Column():
            gr.Markdown("### Patient Information")
            patient_name = gr.Textbox(label="Patient Name", placeholder="Enter patient name")
            patient_age = gr.Number(label="Age", value=25, minimum=1, maximum=120)
            patient_gender = gr.Radio(label="Gender", choices=["Male", "Female", "Other"], value="Male")
            patient_id = gr.Textbox(label="Patient ID", placeholder="Enter patient ID (optional)")
            
            gr.Markdown("### Image/Video Input")
            mode_selector = gr.Radio(label="Choose Input Mode",
                                     choices=["Image", "Video"],
                                     value="Image")
            image_input = gr.Image(type="numpy", label="📸 Upload Face Image")
            video_input = gr.Video(label="Upload Face Video",
                                   sources=["upload", "webcam"])
            submit_btn = gr.Button("🔍 Analyze")
        with gr.Column():
            result_html = gr.HTML(label="🧪 Health Report Table")
            result_pdf = gr.File(label="Download Health Report PDF", interactive=False)

            submit_btn.click(fn=route_inputs,
                             inputs=[mode_selector, image_input, video_input, patient_name, patient_age, patient_gender, patient_id],
                             outputs=[result_html, result_pdf])

# Launch Gradio for Replit
demo.launch(server_name="0.0.0.0", server_port=7860)