app.py

import os
import gradio as gr
import cv2
import time
import json
import random
import logging
import matplotlib.pyplot as plt
from datetime import datetime
from collections import Counter
from typing import Any, Dict, List, Optional, Tuple
import numpy as np

# Suppress Ultralytics warning by setting a writable config directory
os.environ["YOLO_CONFIG_DIR"] = "/tmp/Ultralytics"

# Import service modules
try:
    from services.video_service import get_next_video_frame, reset_video_index, preload_video, release_video
    from services.detection_service import process_frame as process_generic
    from services.metrics_service import update_metrics
    from services.overlay_service import overlay_boxes
    from services.salesforce_dispatcher import send_to_salesforce
    from services.shadow_detection import detect_shadow_coverage
    from services.thermal_service import process_thermal
    from services.map_service import generate_map
    # Under Construction services
    from services.under_construction.earthwork_detection import process_earthwork
    from services.under_construction.culvert_check import process_culverts
    from services.under_construction.bridge_pier_check import process_bridge_piers
    # Operations Maintenance services
    from services.operations_maintenance.crack_detection import detect_cracks_and_holes
    from services.operations_maintenance.pothole_detection import process_potholes
    from services.operations_maintenance.signage_check import process_signages
    # Road Safety services
    from services.road_safety.barrier_check import process_barriers
    from services.road_safety.lighting_check import process_lighting
    from services.road_safety.accident_spot_check import process_accident_spots
    from services.road_safety.pothole_crack_detection import detect_potholes_and_cracks
    # Plantation services
    from services.plantation.plant_count import process_plants
    from services.plantation.plant_health import process_plant_health
    from services.plantation.missing_patch_check import process_missing_patches
except ImportError as e:
    print(f"Failed to import service modules: {str(e)}")
    exit(1)

# Configure logging
logging.basicConfig(
    filename="app.log",
    level=logging.INFO,
    format="%(asctime)s - %(levelname)s - %(message)s"
)

# Global variables
paused: bool = False
frame_rate: float = 0.3
frame_count: int = 0
log_entries: List[str] = []
crack_counts: List[int] = []
crack_severity_all: List[str] = []
last_frame: Optional[np.ndarray] = None
last_metrics: Dict[str, Any] = {}
last_timestamp: str = ""
last_detected_cracks: List[str] = []
last_detected_holes: List[str] = []
gps_coordinates: List[List[float]] = []
video_loaded: bool = False
active_service: Optional[str] = None

# Constants
DEFAULT_VIDEO_PATH = "sample.mp4"
TEMP_IMAGE_PATH = "temp.jpg"
CAPTURED_FRAMES_DIR = "captured_frames"
OUTPUT_DIR = "outputs"
os.makedirs(CAPTURED_FRAMES_DIR, exist_ok=True)
os.makedirs(OUTPUT_DIR, exist_ok=True)

def initialize_video(video_file: Optional[Any] = None) -> str:
    global video_loaded, log_entries
    release_video()
    video_path = DEFAULT_VIDEO_PATH

    if video_file is not None:
        video_path = video_file.name
        log_entries.append(f"Using uploaded video: {video_path}")
        logging.info(f"Using uploaded video: {video_path}")
    
    try:
        preload_video()
        video_loaded = True
        status = f"Successfully loaded video: {video_path}"
        log_entries.append(status)
        logging.info(status)
        return status
    except Exception as e:
        video_loaded = False
        status = f"Error loading video: {str(e)}"
        log_entries.append(status)
        logging.error(status)
        return status

def set_active_service(
    service_name: str,
    uc_val: bool,
    om_val: bool,
    rs_val: bool,
    pl_val: bool
) -> Tuple[Optional[str], str]:
    global active_service
    toggles = {
        "under_construction": uc_val,
        "operations_maintenance": om_val,
        "road_safety": rs_val,
        "plantation": pl_val
    }
    
    active_count = sum(toggles.values())
    if active_count > 1:
        log_entries.append("Error: Only one service category can be active at a time.")
        logging.error("Multiple service categories enabled simultaneously.")
        return None, "Error: Please enable only one service category at a time."

    for service, enabled in toggles.items():
        if enabled:
            active_service = service
            log_entries.append(f"{service.replace('_', ' ').title()} Services Enabled")
            logging.info(f"{service} services enabled")
            return active_service, f"{service.replace('_', ' ').title()} Services: Enabled"
    
    active_service = None
    log_entries.append("No service category enabled.")
    logging.info("No service category enabled.")
    return None, "No Service Category Enabled"

def generate_line_chart() -> Optional[str]:
    if not crack_counts:
        return None
    fig, ax = plt.subplots(figsize=(4, 2))
    ax.plot(crack_counts[-50:], marker='o', color='#4682B4')
    ax.set_title("Cracks/Holes Over Time")
    ax.set_xlabel("Frame")
    ax.set_ylabel("Count")
    ax.grid(True)
    fig.tight_layout()
    chart_path = "chart_temp.png"
    fig.savefig(chart_path)
    plt.close(fig)
    return chart_path

def generate_pie_chart() -> Optional[str]:
    if not crack_severity_all:
        return None
    fig, ax = plt.subplots(figsize=(4, 2))
    count = Counter(crack_severity_all[-200:])
    labels, sizes = zip(*count.items())
    colors = ['#FF6347', '#FFA500', '#32CD32', '#800080']
    ax.pie(sizes, labels=labels, autopct='%1.1f%%', startangle=140, colors=colors[:len(labels)])
    ax.axis('equal')
    fig.tight_layout()
    pie_path = "pie_temp.png"
    fig.savefig(pie_path)
    plt.close(fig)
    return pie_path

def monitor_feed() -> Tuple[
    Optional[np.ndarray],
    str,
    str,
    List[str],
    List[str],
    Optional[str],
    Optional[str]
]:
    global paused, frame_count, last_frame, last_metrics, last_timestamp
    global gps_coordinates, last_detected_cracks, last_detected_holes, video_loaded

    if not video_loaded:
        log_entries.append("Cannot start streaming: Video not loaded successfully.")
        logging.error("Video not loaded successfully.")
        return (
            None,
            json.dumps({"error": "Video not loaded. Please upload a video file."}, indent=2),
            "\n".join(log_entries[-10:]),
            last_detected_cracks,
            last_detected_holes,
            None,
            None
        )

    if paused and last_frame is not None:
        frame = last_frame.copy()
        metrics = last_metrics.copy()
    else:
        try:
            frame = get_next_video_frame()
            if frame is None:
                raise RuntimeError("Failed to retrieve frame from video.")
        except RuntimeError as e:
            log_entries.append(f"Error: {str(e)}")
            logging.error(f"Frame retrieval error: {str(e)}")
            return (
                None,
                json.dumps(last_metrics, indent=2),
                "\n".join(log_entries[-10:]),
                last_detected_cracks,
                last_detected_holes,
                None,
                None
            )

        all_detected_items: List[Dict[str, Any]] = []
        shadow_issue = False
        thermal_flag = False

        try:
            # Process frame based on active service
            if active_service == "under_construction":
                earthwork_dets, frame = process_earthwork(frame)
                culvert_dets, frame = process_culverts(frame)
                bridge_pier_dets, frame = process_bridge_piers(frame)
                all_detected_items.extend(earthwork_dets + culvert_dets + bridge_pier_dets)
            elif active_service == "operations_maintenance":
                crack_hole_dets, frame = detect_cracks_and_holes(frame)
                pothole_dets, frame = process_potholes(frame)
                signage_dets, frame = process_signages(frame)
                all_detected_items.extend(crack_hole_dets + pothole_dets + signage_dets)
            elif active_service == "road_safety":
                barrier_dets, frame = process_barriers(frame)
                lighting_dets, frame = process_lighting(frame)
                accident_dets, frame = process_accident_spots(frame)
                pothole_crack_dets, frame = detect_potholes_and_cracks(frame)
                all_detected_items.extend(barrier_dets + lighting_dets + accident_dets + pothole_crack_dets)
            elif active_service == "plantation":
                plant_dets, frame = process_plants(frame)
                health_dets, frame = process_plant_health(frame)
                missing_dets, frame = process_missing_patches(frame)
                all_detected_items.extend(plant_dets + health_dets + missing_dets)
            else:
                generic_dets, frame = process_generic(frame)
                all_detected_items.extend(generic_dets)

            # Apply shadow detection
            shadow_issue = detect_shadow_coverage(TEMP_IMAGE_PATH)

            # Apply thermal processing if frame is grayscale
            if len(frame.shape) == 2:
                thermal_results = process_thermal(frame)
                thermal_dets = thermal_results["detections"]
                frame = thermal_results["frame"]
                all_detected_items.extend(thermal_dets)
                thermal_flag = bool(thermal_dets)

            # Overlay detections
            frame = overlay_boxes(frame, all_detected_items)

            # Save temporary image
            cv2.imwrite(TEMP_IMAGE_PATH, frame, [int(cv2.IMWRITE_JPEG_QUALITY), 95])

        except Exception as e:
            log_entries.append(f"Processing Error: {str(e)}")
            logging.error(f"Processing error in {active_service}: {str(e)}")
            all_detected_items = []

        # Update detection metrics
        metrics = update_metrics(all_detected_items)

        # Generate GPS coordinates
        gps_coord = [17.385044 + random.uniform(-0.001, 0.001), 78.486671 + frame_count * 0.0001]
        gps_coordinates.append(gps_coord)

        # Save frame if detections are present
        detection_types = {item.get("type") for item in all_detected_items if "type" in item}
        if detection_types:
            try:
                captured_frame_path = os.path.join(CAPTURED_FRAMES_DIR, f"detected_{frame_count}.jpg")
                cv2.imwrite(captured_frame_path, frame)
                for item in all_detected_items:
                    if item.get("type") == "crack":
                        last_detected_cracks.append(captured_frame_path)
                        if len(last_detected_cracks) > 100:
                            last_detected_cracks.pop(0)
                    elif item.get("type") == "hole":
                        last_detected_holes.append(captured_frame_path)
                        if len(last_detected_holes) > 100:
                            last_detected_holes.pop(0)
            except Exception as e:
                log_entries.append(f"Error saving captured frame: {str(e)}")
                logging.error(f"Error saving captured frame: {str(e)}")

        # Prepare data for Salesforce dispatch
        all_detections = {
            "detections": all_detected_items,
            "metrics": metrics,
            "timestamp": datetime.now().strftime("%Y-%m-%d %H:%M:%S"),
            "frame_count": frame_count,
            "gps_coordinates": gps_coord,
            "shadow_issue": shadow_issue,
            "thermal": thermal_flag
        }

        # Dispatch to Salesforce
        try:
            send_to_salesforce(all_detections)
        except Exception as e:
            log_entries.append(f"Salesforce Dispatch Error: {str(e)}")
            logging.error(f"Salesforce dispatch error: {str(e)}")

        # Save processed frame
        try:
            frame_path = os.path.join(OUTPUT_DIR, f"frame_{frame_count:04d}.jpg")
            cv2.imwrite(frame_path, frame)
        except Exception as e:
            log_entries.append(f"Error saving output frame: {str(e)}")
            logging.error(f"Error saving output frame: {str(e)}")

        # Update global variables
        frame_count += 1
        last_timestamp = datetime.now().strftime("%Y-%m-%d %H:%M:%S")
        last_frame = frame.copy()
        last_metrics = metrics

        # Track cracks/holes for metrics
        crack_detected = len([item for item in all_detected_items if item.get("type") == "crack"])
        hole_detected = len([item for item in all_detected_items if item.get("type") == "hole"])
        if active_service in ["operations_maintenance", "road_safety"]:
            crack_severity_all.extend([
                item["severity"]
                for item in all_detected_items
                if item.get("type") in ["crack", "hole"] and "severity" in item
            ])
        crack_counts.append(crack_detected + hole_detected)

        # Log frame processing details
        log_message = f"{last_timestamp} - Frame {frame_count} - Cracks: {crack_detected} - Holes: {hole_detected} - GPS: {gps_coord}"
        log_entries.append(log_message)
        logging.info(log_message)

        # Limit the size of logs and crack data
        if len(log_entries) > 100:
            log_entries.pop(0)
        if len(crack_counts) > 500:
            crack_counts.pop(0)
        if len(crack_severity_all) > 500:
            crack_severity_all.pop(0)

    # Resize frame and add metadata for display
    frame = cv2.resize(last_frame, (640, 480))
    cv2.putText(frame, f"Frame: {frame_count}", (10, 25), cv2.FONT_HERSHEY_SIMPLEX, 0.6, (0, 255, 0), 2)
    cv2.putText(frame, f"{last_timestamp}", (10, 50), cv2.FONT_HERSHEY_SIMPLEX, 0.6, (0, 255, 0), 2)

    # Generate map
    map_path = generate_map(gps_coordinates[-5:], [item for item in last_metrics.get("items", []) if item.get("type") in ["crack", "hole"]])

    return (
        frame[:, :, ::-1],  # Convert BGR to RGB for Gradio
        json.dumps(last_metrics, indent=2),
        "\n".join(log_entries[-10:]),
        last_detected_cracks,
        last_detected_holes,
        generate_line_chart(),
        map_path
    )

# Gradio UI setup
with gr.Blocks(theme=gr.themes.Soft(primary_hue="blue", secondary_hue="green")) as app:
    gr.Markdown(
        """
        # 🛡️ NHAI Drone Road Inspection Dashboard
        Monitor highway conditions in real-time using drone footage. Select a service category to analyze specific aspects of the road.
        """
    )

    with gr.Row():
        with gr.Column(scale=3):
            video_input = gr.File(label="Upload Video File (e.g., sample.mp4)", file_types=["video"])
            load_button = gr.Button("Load Video", variant="primary")
        with gr.Column(scale=1):
            video_status = gr.Textbox(
                label="Video Load Status",
                value="Please upload a video file or ensure 'sample.mp4' exists in the root directory.",
                interactive=False
            )

    with gr.Row():
        with gr.Column():
            uc_toggle = gr.Checkbox(label="Enable Under Construction Services", value=False)
            uc_status = gr.Textbox(label="Under Construction Status", value="Disabled", interactive=False)
        with gr.Column():
            om_toggle = gr.Checkbox(label="Enable Operations Maintenance Services", value=False)
            om_status = gr.Textbox(label="Operations Maintenance Status", value="Disabled", interactive=False)
        with gr.Column():
            rs_toggle = gr.Checkbox(label="Enable Road Safety Services", value=False)
            rs_status = gr.Textbox(label="Road Safety Status", value="Disabled", interactive=False)
        with gr.Column():
            pl_toggle = gr.Checkbox(label="Enable Plantation Services", value=False)
            pl_status = gr.Textbox(label="Plantation Status", value="Disabled", interactive=False)

    status_text = gr.Markdown("**Status:** 🟢 Ready (Upload a video to start)")

    with gr.Row():
        with gr.Column(scale=3):
            video_output = gr.Image(label="Live Drone Feed", width=640, height=480, elem_id="live-feed")
        with gr.Column(scale=1):
            metrics_output = gr.Textbox(
                label="Detection Metrics",
                lines=10,
                interactive=False,
                placeholder="Detection metrics, crack/hole counts will appear here."
            )

    with gr.Row():
        with gr.Column(scale=2):
            logs_output = gr.Textbox(label="Live Logs", lines=8, interactive=False)
        with gr.Column(scale=1):
            crack_images = gr.Gallery(label="Detected Cracks (Last 100+)", columns=4, rows=13, height="auto")
            hole_images = gr.Gallery(label="Detected Holes (Last 100+)", columns=4, rows=13, height="auto")

    with gr.Row():
        chart_output = gr.Image(label="Crack/Hole Trend")
        map_output = gr.Image(label="Crack/Hole Locations Map")

    with gr.Row():
        pause_btn = gr.Button("⏸️ Pause", variant="secondary")
        resume_btn = gr.Button("▶️ Resume", variant="primary")
        frame_slider = gr.Slider(0.05, 1.0, value=0.3, label="Frame Interval (seconds)", step=0.05)

    gr.HTML("""
    <style>
        #live-feed {
            border: 2px solid #4682B4;
            border-radius: 10px;
        }
        .gr-button-primary {
            background-color: #4682B4 !important;
        }
        .gr-button-secondary {
            background-color: #FF6347 !important;
        }
    </style>
    """)

    def toggle_pause() -> str:
        global paused
        paused = True
        return "**Status:** ⏸️ Paused"

    def toggle_resume() -> str:
        global paused
        paused = False
        return "**Status:** 🟢 Streaming"

    def set_frame_rate(val: float) -> None:
        global frame_rate
        frame_rate = val

    video_status.value = initialize_video()

    load_button.click(
        initialize_video,
        inputs=[video_input],
        outputs=[video_status]
    )

    def update_toggles(uc_val: bool, om_val: bool, rs_val: bool, pl_val: bool) -> Tuple[str, str, str, str, str]:
        active, status_message = set_active_service("toggle", uc_val, om_val, rs_val, pl_val)
        uc_status_val = "Enabled" if active == "under_construction" else "Disabled"
        om_status_val = "Enabled" if active == "operations_maintenance" else "Disabled"
        rs_status_val = "Enabled" if active == "road_safety" else "Disabled"
        pl_status_val = "Enabled" if active == "plantation" else "Disabled"
        return (
            uc_status_val, om_status_val, rs_status_val, pl_status_val, status_message
        )

    toggle_inputs = [uc_toggle, om_toggle, rs_toggle, pl_toggle]
    toggle_outputs = [uc_status, om_status, rs_status, pl_status, status_text]
    uc_toggle.change(update_toggles, inputs=toggle_inputs, outputs=toggle_outputs)
    om_toggle.change(update_toggles, inputs=toggle_inputs, outputs=toggle_outputs)
    rs_toggle.change(update_toggles, inputs=toggle_inputs, outputs=toggle_outputs)
    pl_toggle.change(update_toggles, inputs=toggle_inputs, outputs=toggle_outputs)

    pause_btn.click(toggle_pause, outputs=status_text)
    resume_btn.click(toggle_resume, outputs=status_text)
    frame_slider.change(set_frame_rate, inputs=[frame_slider])

    def streaming_loop():
        while True:
            if not video_loaded:
                yield None, json.dumps({"error": "Video not loaded. Please upload a video file."}, indent=2), "\n".join(log_entries[-10:]), last_detected_cracks, last_detected_holes, None, None
            else:
                frame, metrics, logs, cracks, holes, chart, map_path = monitor_feed()
                if frame is None:
                    yield None, metrics, logs, cracks, holes, chart, map_path
                else:
                    yield frame, metrics, logs, cracks, holes, chart, map_path
            time.sleep(frame_rate)

    app.load(streaming_loop, outputs=[video_output, metrics_output, logs_output, crack_images, hole_images, chart_output, map_output])

if __name__ == "__main__":
    app.launch(share=False)