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import os
import json
import time
import asyncio
import aiohttp
import zipfile
import shutil
from typing import Dict, List, Set, Optional, Tuple, Any
from urllib.parse import quote
from datetime import datetime
from pathlib import Path
import io

from fastapi import FastAPI, BackgroundTasks, HTTPException, status
from pydantic import BaseModel, Field
from huggingface_hub import HfApi, hf_hub_download

AUTO_START_INDEX = 0 # Hardcoded default start index if no progress is found
FLOW_ID = os.getenv("FLOW_ID", "flow_default")
FLOW_PORT = int(os.getenv("FLOW_PORT", 8001))
HF_TOKEN = os.getenv("HF_TOKEN", "")
HF_DATASET_ID = os.getenv("HF_DATASET_ID", "samfred2/BG4") # Source dataset for zip files
HF_OUTPUT_DATASET_ID = os.getenv("HF_OUTPUT_DATASET_ID", "samelias1/helium_tg") # Target dataset for captions

# Progress and State Tracking
PROGRESS_FILE = Path("processing_progress.json")
HF_STATE_FILE = "processing_state_captions.json"  # State file in helium dataset
LOCAL_STATE_FOLDER = Path(".state")  # Local folder for state file
LOCAL_STATE_FOLDER.mkdir(exist_ok=True)

# Directory within the HF dataset where the zip files are located
ZIP_FILE_PREFIX = "frames_zips/"

# Using the full list from the user's original code for actual deployment
CAPTION_SERVERS = [
    "https://elias80-elen-1.hf.space/analyze",
    "https://elias80-elen-2.hf.space/analyze",
    "https://elias80-elen-3.hf.space/analyze",
    "https://elias80-elen-4.hf.space/analyze",
    "https://elias80-elen-5.hf.space/analyze",
    "https://elias80-elen-6.hf.space/analyze",
    "https://elias80-elen-7.hf.space/analyze",
    "https://elias80-elen-8.hf.space/analyze",
    "https://elias80-elen-9.hf.space/analyze",
    "https://elias80-elen-10.hf.space/analyze",
    "https://elias80-elen-11.hf.space/analyze",
    "https://elias80-elen-12.hf.space/analyze",
    "https://elias80-elen-13.hf.space/analyze",
    "https://elias80-elen-14.hf.space/analyze",
    "https://elias80-elen-15.hf.space/analyze",
    "https://elias80-elen-16.hf.space/analyze",
    "https://elias80-elen-17.hf.space/analyze",
    "https://elias80-elen-18.hf.space/analyze",
    "https://elias80-elen-19.hf.space/analyze",
    "https://elias80-elen-20.hf.space/analyze",
    #     "https://onewayto-jean-1.hf.space/analyze",
    # "https://onewayto-jean-2.hf.space/analyze",
    # "https://onewayto-jean-3.hf.space/analyze",
    # "https://onewayto-jean-4.hf.space/analyze",
    # "https://onewayto-jean-5.hf.space/analyze",
    # "https://onewayto-jean-6.hf.space/analyze",
    # "https://onewayto-jean-7.hf.space/analyze",
    # "https://onewayto-jean-8.hf.space/analyze",
    # "https://onewayto-jean-9.hf.space/analyze",
    # "https://onewayto-jean-10.hf.space/analyze",
    # "https://onewayto-jean-11.hf.space/analyze",
    # "https://onewayto-jean-12.hf.space/analyze",
    # "https://onewayto-jean-13.hf.space/analyze",
    # "https://onewayto-jean-14.hf.space/analyze",
    # "https://onewayto-jean-15.hf.space/analyze",
    # "https://onewayto-jean-16.hf.space/analyze",
    # "https://onewayto-jean-17.hf.space/analyze",
    # "https://onewayto-jean-18.hf.space/analyze",
    # "https://onewayto-jean-19.hf.space/analyze",
    # "https://onewayto-jean-20.hf.space/analyze",
        "https://Elias2211-bam-1.hf.space/analyze",
    "https://Elias2211-bam-2.hf.space/analyze",
    "https://Elias2211-bam-3.hf.space/analyze",
    "https://Elias2211-bam-4.hf.space/analyze",
    "https://Elias2211-bam-5.hf.space/analyze",
    "https://Elias2211-bam-6.hf.space/analyze",
    "https://Elias2211-bam-7.hf.space/analyze",
    "https://Elias2211-bam-8.hf.space/analyze",
    "https://Elias2211-bam-10.hf.space/analyze",
    "https://Elias2211-bam-11.hf.space/analyze",
    "https://Elias2211-bam-12.hf.space/analyze",
    "https://Elias2211-bam-13.hf.space/analyze",
    "https://Elias2211-bam-14.hf.space/analyze",
    "https://Elias2211-bam-15.hf.space/analyze",
    "https://Elias2211-bam-16.hf.space/analyze",
    "https://Elias2211-bam-17.hf.space/analyze",
    "https://Elias2211-bam-18.hf.space/analyze",
    "https://Elias2211-bam-19.hf.space/analyze",
    "https://Elias2211-bam-20.hf.space/analyze",
            "https://samfred2-isherelike-1.hf.space/analyze",
    "https://samfred2-isherelike-2.hf.space/analyze",
    "https://samfred2-isherelike-3.hf.space/analyze",
    "https://samfred2-isherelike-5.hf.space/analyze",
    "https://samfred2-isherelike-6.hf.space/analyze",
    "https://samfred2-isherelike-7.hf.space/analyze",
    "https://samfred2-isherelike-8.hf.space/analyze",
    "https://samfred2-isherelike-9.hf.space/analyze",
    "https://samfred2-isherelike-10.hf.space/analyze",
    "https://samfred2-isherelike-11.hf.space/analyze",
    "https://samfred2-isherelike-12.hf.space/analyze",
    "https://samfred2-isherelike-13.hf.space/analyze",
    "https://samfred2-isherelike-14.hf.space/analyze",
    "https://samfred2-isherelike-15.hf.space/analyze",
    "https://samfred2-isherelike-16.hf.space/analyze",
    "https://samfred2-isherelike-17.hf.space/analyze",
    "https://samfred2-isherelike-19.hf.space/analyze",
    "https://Fred800-jam-1.hf.space/analyze",
    "https://Fred800-jam-2.hf.space/analyze",
    "https://Fred800-jam-3.hf.space/analyze",
    "https://Fred800-jam-4.hf.space/analyze",
    "https://Fred800-jam-5.hf.space/analyze",
    "https://Fred800-jam-6.hf.space/analyze",
    "https://Fred800-jam-7.hf.space/analyze",
    "https://Fred800-jam-8.hf.space/analyze",
    "https://Fred800-jam-9.hf.space/analyze",
    "https://Fred800-jam-10.hf.space/analyze",
    "https://Fred800-jam-11.hf.space/analyze",
    "https://Fred800-jam-12.hf.space/analyze",
    "https://Fred800-jam-13.hf.space/analyze",
    "https://Fred800-jam-14.hf.space/analyze",
    "https://Fred800-jam-15.hf.space/analyze",
    "https://Fred800-jam-17.hf.space/analyze",
    "https://Fred800-jam-18.hf.space/analyze",
    "https://Fred800-jam-19.hf.space/analyze",
    "https://Fred800-jam-20.hf.space/analyze",


        "https://favoredone-sweet-1.hf.space/analyze",
    "https://favoredone-sweet-2.hf.space/analyze",
    "https://favoredone-sweet-3.hf.space/analyze",
    "https://favoredone-sweet-4.hf.space/analyze",
    "https://favoredone-sweet-5.hf.space/analyze",
    "https://favoredone-sweet-6.hf.space/analyze",
    "https://favoredone-sweet-7.hf.space/analyze",
    "https://favoredone-sweet-8.hf.space/analyze",
    "https://favoredone-sweet-9.hf.space/analyze",
    "https://favoredone-sweet-10.hf.space/analyze",
    "https://favoredone-sweet-11.hf.space/analyze",
    "https://favoredone-sweet-12.hf.space/analyze",
    "https://favoredone-sweet-13.hf.space/analyze",
    "https://favoredone-sweet-14.hf.space/analyze",
    "https://favoredone-sweet-15.hf.space/analyze",
    "https://favoredone-sweet-16.hf.space/analyze",
    "https://favoredone-sweet-17.hf.space/analyze",
    "https://favoredone-sweet-18.hf.space/analyze",
    "https://favoredone-sweet-19.hf.space/analyze",
    "https://favoredone-sweet-20.hf.space/analyze",
        "https://sameli05-sweet-1.hf.space/analyze",
    "https://sameli05-sweet-2.hf.space/analyze",
    "https://sameli05-sweet-3.hf.space/analyze",
    "https://sameli05-sweet-4.hf.space/analyze",
    "https://sameli05-sweet-5.hf.space/analyze",
    "https://sameli05-sweet-6.hf.space/analyze",
    "https://sameli05-sweet-7.hf.space/analyze",
    "https://sameli05-sweet-8.hf.space/analyze",
    "https://sameli05-sweet-9.hf.space/analyze",
    "https://sameli05-sweet-10.hf.space/analyze",
    "https://sameli05-sweet-11.hf.space/analyze",
    "https://sameli05-sweet-12.hf.space/analyze",
    "https://sameli05-sweet-13.hf.space/analyze",
    "https://sameli05-sweet-14.hf.space/analyze",
    "https://sameli05-sweet-15.hf.space/analyze",
    "https://sameli05-sweet-16.hf.space/analyze",
    "https://sameli05-sweet-17.hf.space/analyze",
    "https://sameli05-sweet-18.hf.space/analyze",
    "https://sameli05-sweet-19.hf.space/analyze",
    "https://sameli05-sweet-20.hf.space/analyze",
        "https://michy2-swait-1.hf.space/analyze",
    "https://michy2-swait-2.hf.space/analyze",
    "https://michy2-swait-3.hf.space/analyze",
    "https://michy2-swait-4.hf.space/analyze",
    "https://michy2-swait-5.hf.space/analyze",
    "https://michy2-swait-6.hf.space/analyze",
    "https://michy2-swait-7.hf.space/analyze",
    "https://michy2-swait-8.hf.space/analyze",
    "https://michy2-swait-9.hf.space/analyze",
    "https://michy2-swait-10.hf.space/analyze",
    "https://michy2-swait-11.hf.space/analyze",
    "https://michy2-swait-12.hf.space/analyze",
    "https://michy2-swait-13.hf.space/analyze",
    "https://michy2-swait-14.hf.space/analyze",
    "https://michy2-swait-15.hf.space/analyze",
    "https://michy2-swait-16.hf.space/analyze",
    "https://michy2-swait-17.hf.space/analyze",
    "https://michy2-swait-18.hf.space/analyze",
    "https://michy2-swait-19.hf.space/analyze",
    "https://michy2-swait-20.hf.space/analyze",

]
MODEL_TYPE = "Florence-2-large"

# Temporary storage for images
TEMP_DIR = Path(f"temp_images_{FLOW_ID}")
TEMP_DIR.mkdir(exist_ok=True)

# --- Models ---
class ProcessStartRequest(BaseModel):
    start_index: int = Field(AUTO_START_INDEX, ge=1, description="The index number of the zip file to start processing from (1-indexed).")

class CaptionServer:
    def __init__(self, url):
        self.url = url
        self.busy = False
        self.total_processed = 0
        self.total_time = 0
        self.model = MODEL_TYPE

    @property
    def fps(self):
        return self.total_processed / self.total_time if self.total_time > 0 else 0

# Global state for caption servers
servers = [CaptionServer(url) for url in CAPTION_SERVERS]
server_index = 0

# --- Progress and State Management Functions ---

def load_progress() -> Dict:
    """Loads the local processing progress from the JSON file."""
    if PROGRESS_FILE.exists():
        try:
            with PROGRESS_FILE.open('r') as f:
                return json.load(f)
        except json.JSONDecodeError:
            print(f"[{FLOW_ID}] WARNING: Progress file is corrupted. Starting fresh.")
            # Fall through to return default structure
    
    # Default structure
    return {
        "last_processed_index": 0,
        "processed_files": {}, # {index: repo_path}
        "file_list": [] # Full list of all zip files found in the dataset
    }

def save_progress(progress_data: Dict):
    """Saves the local processing progress to the JSON file."""
    try:
        with PROGRESS_FILE.open('w') as f:
            json.dump(progress_data, f, indent=4)
    except Exception as e:
        print(f"[{FLOW_ID}] CRITICAL ERROR: Could not save progress to {PROGRESS_FILE}: {e}")

def load_json_state(file_path: str, default_value: Dict[str, Any]) -> Dict[str, Any]:
    """Load state from JSON file with migration logic for new structure."""
    if os.path.exists(file_path):
        try:
            with open(file_path, "r") as f:
                data = json.load(f)
                
                # Migration Logic
                if "file_states" not in data or not isinstance(data["file_states"], dict):
                    print(f"[{FLOW_ID}] Initializing 'file_states' dictionary.")
                    data["file_states"] = {}
                    
                if "next_download_index" not in data:
                    data["next_download_index"] = 0
                    
                return data
        except json.JSONDecodeError:
            print(f"[{FLOW_ID}] WARNING: Corrupted state file: {file_path}")
    return default_value

def save_json_state(file_path: str, data: Dict[str, Any]):
    """Save state to JSON file"""
    with open(file_path, "w") as f:
        json.dump(data, f, indent=2)

async def download_hf_state() -> Dict[str, Any]:
    """Downloads the state file from Hugging Face or returns a default state."""
    local_path = LOCAL_STATE_FOLDER / HF_STATE_FILE
    default_state = {"next_download_index": 0, "file_states": {}}
    
    try:
        # Check if the file exists in the helium repo
        files = HfApi(token=HF_TOKEN).list_repo_files(
            repo_id=HF_OUTPUT_DATASET_ID,
            repo_type="dataset"
        )
        
        if HF_STATE_FILE not in files:
            print(f"[{FLOW_ID}] State file not found in {HF_OUTPUT_DATASET_ID}. Starting fresh.")
            return default_state

        # Download the file
        hf_hub_download(
            repo_id=HF_OUTPUT_DATASET_ID,
            filename=HF_STATE_FILE,
            repo_type="dataset",
            local_dir=LOCAL_STATE_FOLDER,
            local_dir_use_symlinks=False,
            token=HF_TOKEN
        )
        
        print(f"[{FLOW_ID}] Successfully downloaded state file.")
        return load_json_state(str(local_path), default_state)
        
    except Exception as e:
        print(f"[{FLOW_ID}] Failed to download state file: {str(e)}. Starting fresh.")
        return default_state

async def upload_hf_state(state: Dict[str, Any]) -> bool:
    """Uploads the state file to Hugging Face."""
    local_path = LOCAL_STATE_FOLDER / HF_STATE_FILE
    
    try:
        # Save state locally first
        save_json_state(str(local_path), state)
        
        # Upload to helium dataset
        HfApi(token=HF_TOKEN).upload_file(
            path_or_fileobj=str(local_path),
            path_in_repo=HF_STATE_FILE,
            repo_id=HF_OUTPUT_DATASET_ID,
            repo_type="dataset",
            commit_message=f"Update caption processing state: next_index={state['next_download_index']}"
        )
        print(f"[{FLOW_ID}] Successfully uploaded state file.")
        return True
    except Exception as e:
        print(f"[{FLOW_ID}] Failed to upload state file: {str(e)}")
        return False

async def lock_file_for_processing(zip_filename: str, state: Dict[str, Any]) -> bool:
    """Marks a file as 'processing' in the state file and uploads the lock."""
    print(f"[{FLOW_ID}] 🔒 Attempting to lock file: {zip_filename}")
    
    # Update state locally
    state["file_states"][zip_filename] = "processing"
    
    # Upload the updated state file immediately to establish the lock
    if await upload_hf_state(state):
        print(f"[{FLOW_ID}] ✅ Successfully locked file: {zip_filename}")
        return True
    else:
        print(f"[{FLOW_ID}] ❌ Failed to lock file: {zip_filename}")
        # Revert local state
        if zip_filename in state["file_states"]:
            del state["file_states"][zip_filename]
        return False

async def unlock_file_as_processed(zip_filename: str, state: Dict[str, Any], next_index: int) -> bool:
    """Marks a file as 'processed', updates the index, and uploads the state."""
    print(f"[{FLOW_ID}] 🔓 Marking file as processed: {zip_filename}")
    
    # Update state locally
    state["file_states"][zip_filename] = "processed"
    state["next_download_index"] = next_index
    
    # Upload the updated state
    if await upload_hf_state(state):
        print(f"[{FLOW_ID}] ✅ Successfully marked as processed: {zip_filename}")
        return True
    else:
        print(f"[{FLOW_ID}] ❌ Failed to update state for: {zip_filename}")
        return False

# --- Hugging Face Utility Functions ---

async def get_zip_file_list(progress_data: Dict) -> List[str]:
    """
    Fetches the list of all zip files from the dataset, or uses the cached list.
    Updates the progress_data with the file list if a new list is fetched.
    """
    if progress_data['file_list']:
        print(f"[{FLOW_ID}] Using cached file list with {len(progress_data['file_list'])} files.")
        return progress_data['file_list']

    print(f"[{FLOW_ID}] Fetching full list of zip files from {HF_DATASET_ID}...")
    try:
        api = HfApi(token=HF_TOKEN)
        repo_files = api.list_repo_files(
            repo_id=HF_DATASET_ID,
            repo_type="dataset"
        )
        
        # Filter for zip files in the specified directory and sort them alphabetically for consistent indexing
        zip_files = sorted([
            f for f in repo_files 
            if f.startswith(ZIP_FILE_PREFIX) and f.endswith('.zip')
        ])
        
        if not zip_files:
            raise FileNotFoundError(f"No zip files found in '{ZIP_FILE_PREFIX}' directory of dataset '{HF_DATASET_ID}'.")
        
        print(f"[{FLOW_ID}] Found {len(zip_files)} zip files.")
        
        # Update and save the progress data
        progress_data['file_list'] = zip_files
        save_progress(progress_data)
        
        return zip_files
        
    except Exception as e:
        print(f"[{FLOW_ID}] Error fetching file list from Hugging Face: {e}")
        return []

async def download_and_extract_zip_by_index(file_index: int, repo_file_full_path: str) -> Optional[Path]:
    """Downloads the zip file for the given index and extracts its contents."""
    
    # Extract the base name for the extraction directory
    zip_full_name = Path(repo_file_full_path).name 
    course_name = zip_full_name.replace('.zip', '') # Use the file name as the course/job name
    
    print(f"[{FLOW_ID}] Processing file #{file_index}: {repo_file_full_path}. Full name: {zip_full_name}")
    
    try:
        # Use hf_hub_download to get the file path
        zip_path = hf_hub_download(
            repo_id=HF_DATASET_ID,
            filename=repo_file_full_path, # Use the full path in the repo
            repo_type="dataset",
            token=HF_TOKEN,
        )
        
        print(f"[{FLOW_ID}] Downloaded to {zip_path}. Extracting...")
        
        # Create a temporary directory for extraction
        extract_dir = TEMP_DIR / course_name
        # Ensure a clean directory for extraction
        if extract_dir.exists():
            shutil.rmtree(extract_dir)
        extract_dir.mkdir(exist_ok=True)
        
        with zipfile.ZipFile(zip_path, 'r') as zip_ref:
            zip_ref.extractall(extract_dir)
            
        print(f"[{FLOW_ID}] Extraction complete to {extract_dir}.")
        
        # Clean up the downloaded zip file to save space
        os.remove(zip_path)
        
        return extract_dir
        
    except Exception as e:
        print(f"[{FLOW_ID}] Error downloading or extracting zip for {repo_file_full_path}: {e}")
        return None

async def upload_captions_to_hf(zip_full_name: str, captions: List[Dict]) -> bool:
    """Uploads the final captions JSON file to the output dataset."""
    # Use the full zip name, replacing the extension with .json
    caption_filename = Path(zip_full_name).with_suffix('.json').name
    
    try:
        print(f"[{FLOW_ID}] Uploading {len(captions)} captions for {zip_full_name} as {caption_filename} to {HF_OUTPUT_DATASET_ID}...")
        
        # Create JSON content in memory
        json_content = json.dumps(captions, indent=2, ensure_ascii=False).encode('utf-8')
        
        api = HfApi(token=HF_TOKEN)
        api.upload_file(
            path_or_fileobj=io.BytesIO(json_content),
            path_in_repo=caption_filename,
            repo_id=HF_OUTPUT_DATASET_ID,
            repo_type="dataset",
            commit_message=f"[{FLOW_ID}] Captions for {zip_full_name}"
        )
        
        print(f"[{FLOW_ID}] Successfully uploaded captions for {zip_full_name}.")
        return True
        
    except Exception as e:
        print(f"[{FLOW_ID}] Error uploading captions for {zip_full_name}: {e}")
        return False

# --- Core Processing Functions (Modified) ---

async def get_available_server(timeout: float = 300.0) -> CaptionServer:
    """Round-robin selection of an available caption server."""
    global server_index
    start_time = time.time()
    while True:
        # Round-robin check for an available server
        for _ in range(len(servers)):
            server = servers[server_index]
            server_index = (server_index + 1) % len(servers)
            if not server.busy:
                return server
        
        # If all servers are busy, wait for a short period and check again
        await asyncio.sleep(0.5)
        
        # Check if timeout has been reached
        if time.time() - start_time > timeout:
            raise TimeoutError(f"Timeout ({timeout}s) waiting for an available caption server.")

async def send_image_for_captioning(image_path: Path, course_name: str, progress_tracker: Dict) -> Optional[Dict]:
    """Sends a single image to a caption server for processing."""
    # This function now handles server selection and retries internally
    MAX_RETRIES = 3
    for attempt in range(MAX_RETRIES):
        server = None
        try:
            # 1. Get an available server (will wait if all are busy, with a timeout)
            server = await get_available_server()
            server.busy = True
            start_time = time.time()
            
            # Print a less verbose message only on the first attempt
            if attempt == 0:
                print(f"[{FLOW_ID}] Starting attempt on {image_path.name}...")
            
            # 2. Prepare request data
            form_data = aiohttp.FormData()
            form_data.add_field('file',
                                image_path.open('rb'),
                                filename=image_path.name,
                                content_type='image/jpeg')
            form_data.add_field('model_choice', MODEL_TYPE)
            
            # 3. Send request
            async with aiohttp.ClientSession() as session:
                # Increased timeout to 10 minutes (600s) as requested by user's problem description
                async with session.post(server.url, data=form_data, timeout=600) as resp:
                    if resp.status == 200:
                        result = await resp.json()
                        caption = result.get("caption")
                        
                        if caption:
                            # Update progress counter
                            progress_tracker['completed'] += 1
                            if progress_tracker['completed'] % 50 == 0:
                                print(f"[{FLOW_ID}] PROGRESS: {progress_tracker['completed']}/{progress_tracker['total']} captions completed.")
                            
                            # Log success only if it's not a progress report interval
                            if progress_tracker['completed'] % 50 != 0:
                                print(f"[{FLOW_ID}] Success: {image_path.name} captioned by {server.url}")
                                
                            return {
                                "course": course_name,
                                "image_path": image_path.name,
                                "caption": caption,
                                "timestamp": datetime.now().isoformat()
                            }
                        else:
                            print(f"[{FLOW_ID}] Server {server.url} returned success but no caption for {image_path.name}. Retrying...")
                            continue # Retry with a different server
                    else:
                        error_text = await resp.text()
                        print(f"[{FLOW_ID}] Error from server {server.url} for {image_path.name}: {resp.status} - {error_text}. Retrying...")
                        continue # Retry with a different server
                        
        except (aiohttp.ClientError, asyncio.TimeoutError, TimeoutError) as e:
            print(f"[{FLOW_ID}] Connection/Timeout error for {image_path.name} on {server.url if server else 'unknown server'}: {e}. Retrying...")
            continue # Retry with a different server
        except Exception as e:
            print(f"[{FLOW_ID}] Unexpected error during captioning for {image_path.name}: {e}. Retrying...")
            continue # Retry with a different server
        finally:
            if server:
                end_time = time.time()
                server.busy = False
                server.total_processed += 1
                server.total_time += (end_time - start_time)

    print(f"[{FLOW_ID}] FAILED after {MAX_RETRIES} attempts for {image_path.name}.")
    return None

async def process_dataset_task(start_index: int):
    """Main task to process the dataset sequentially starting from a given index."""
    
    # Load both local progress and HF state
    progress = load_progress()
    current_state = await download_hf_state()
    file_list = await get_zip_file_list(progress)
    
    if not file_list:
        print(f"[{FLOW_ID}] ERROR: Cannot proceed. File list is empty.")
        return False
    
    # Ensure start_index is within bounds
    if start_index > len(file_list):
        print(f"[{FLOW_ID}] WARNING: Start index {start_index} is greater than the total number of files ({len(file_list)}). Exiting.")
        return True
    
    # Determine the actual starting index in the 0-indexed list
    start_list_index = start_index - 1
    
    print(f"[{FLOW_ID}] Starting dataset processing from file index: {start_index} out of {len(file_list)}.")
    
    global_success = True
    
    for i in range(start_list_index, len(file_list)):
        file_index = i + 1 # 1-indexed for user display and progress tracking
        repo_file_full_path = file_list[i]
        zip_full_name = Path(repo_file_full_path).name 
        course_name = zip_full_name.replace('.zip', '') # Use the file name as the course/job name
        
        # Check file state in both local and HF state
        file_state = current_state["file_states"].get(zip_full_name)
        if file_state == "processed":
            print(f"[{FLOW_ID}] Skipping {zip_full_name}: Already processed in global state.")
            continue
        elif file_state == "processing":
            print(f"[{FLOW_ID}] Skipping {zip_full_name}: Currently being processed by another worker.")
            continue
            
        # Try to lock the file
        if not await lock_file_for_processing(zip_full_name, current_state):
            print(f"[{FLOW_ID}] Failed to lock {zip_full_name}. Skipping.")
            continue
            
        extract_dir = None
        current_file_success = False
        
        try:
            # 1. Download and Extract
            extract_dir = await download_and_extract_zip_by_index(file_index, repo_file_full_path)
            
            if not extract_dir:
                raise Exception("Failed to download or extract zip file.")
            
            # 2. Find Images
            # Use recursive glob to find images in subdirectories
            image_paths = [p for p in extract_dir.glob("**/*") if p.is_file() and p.suffix.lower() in ['.jpg', '.jpeg', '.png']]
            print(f"[{FLOW_ID}] Found {len(image_paths)} images to process in {zip_full_name}.")
            
            if not image_paths:
                print(f"[{FLOW_ID}] No images found in {zip_full_name}. Marking as complete.")
                current_file_success = True
            else:
                # 3. Process Images (Captioning)
                progress_tracker = {
                    'total': len(image_paths),
                    'completed': 0
                }
                print(f"[{FLOW_ID}] Starting captioning for {progress_tracker['total']} images in {zip_full_name}...")
                
                # Create a semaphore to limit concurrent tasks to the number of available servers
                semaphore = asyncio.Semaphore(len(servers))
                
                async def limited_send_image_for_captioning(image_path, course_name, progress_tracker):
                    async with semaphore:
                        return await send_image_for_captioning(image_path, course_name, progress_tracker)
                
                # Create a list of tasks for parallel captioning
                caption_tasks = [limited_send_image_for_captioning(p, course_name, progress_tracker) for p in image_paths]
                    
                # Run all captioning tasks concurrently
                results = await asyncio.gather(*caption_tasks)
                
                # Filter out failed results
                all_captions = [r for r in results if r is not None]
                
                # Final progress report for the current file
                if len(all_captions) == len(image_paths):
                    print(f"[{FLOW_ID}] FINAL PROGRESS for {zip_full_name}: Successfully completed all {len(all_captions)} captions.")
                else:
                    print(f"[{FLOW_ID}] FINAL PROGRESS for {zip_full_name}: Completed with partial result: {len(all_captions)}/{len(image_paths)} captions.")
                
                # Consider the file successful if we have any captions
                current_file_success = len(all_captions) > 0
                
                # 4. Upload Results
                if all_captions:
                    print(f"[{FLOW_ID}] Uploading {len(all_captions)} captions for {zip_full_name}...")
                    if await upload_captions_to_hf(zip_full_name, all_captions):
                        print(f"[{FLOW_ID}] Successfully uploaded captions for {zip_full_name}.")
                        # Keep current_file_success as True since we have captions and successfully uploaded them
                        current_file_success = True
                    else:
                        print(f"[{FLOW_ID}] Failed to upload captions for {zip_full_name}.")
                        current_file_success = False
                else:
                    print(f"[{FLOW_ID}] No captions generated. Skipping upload for {zip_full_name}.")
                    current_file_success = False
            
        except Exception as e:
            print(f"[{FLOW_ID}] Critical error in process_dataset_task for file #{file_index} ({zip_full_name}): {e}")
            current_file_success = False
            global_success = False # Mark overall task as failed if any file fails critically
            
        finally:
            # 5. Cleanup and Update Progress
            if extract_dir and extract_dir.exists():
                print(f"[{FLOW_ID}] Cleaned up temporary directory {extract_dir}.")
                shutil.rmtree(extract_dir, ignore_errors=True)
                
            if current_file_success:
                # Update both local progress and HF state
                progress['last_processed_index'] = file_index
                progress['processed_files'][str(file_index)] = repo_file_full_path
                save_progress(progress)
                
                # Update HF state and unlock the file
                if await unlock_file_as_processed(zip_full_name, current_state, file_index + 1):
                    print(f"[{FLOW_ID}] Progress saved and file unlocked: {zip_full_name}")
                else:
                    print(f"[{FLOW_ID}] Warning: File processed but state update failed: {zip_full_name}")
            else:
                # Mark as failed in the state and continue with next file
                current_state["file_states"][zip_full_name] = "failed"
                await upload_hf_state(current_state)
                print(f"[{FLOW_ID}] File {zip_full_name} marked as failed. Continuing with next file.")
                global_success = False
                
    print(f"[{FLOW_ID}] All processing loops complete. Overall success: {global_success}")
    return global_success

# --- FastAPI App and Endpoints ---

app = FastAPI(
    title=f"Flow Server {FLOW_ID} API",
    description="Sequentially processes zip files from a dataset, captions images, and tracks progress.",
    version="1.0.0"
)

@app.on_event("startup")
async def startup_event():
    print(f"Flow Server {FLOW_ID} started on port {FLOW_PORT}.")
    
    # Get both local progress and HF state
    progress = load_progress()
    current_state = await download_hf_state()
    
    # Get the next_download_index from HF state if available
    hf_next_index = current_state.get("next_download_index", 0)
    
    # If HF state has a higher index, use that instead of local progress
    if hf_next_index > 0:
        start_index = hf_next_index
        print(f"[{FLOW_ID}] Using next_download_index from HF state: {start_index}")
    else:
        # Fall back to local progress if HF state doesn't have a meaningful index
        start_index = progress.get('last_processed_index', 0) + 1
        if start_index < AUTO_START_INDEX:
            start_index = AUTO_START_INDEX

    # Use a dummy BackgroundTasks object for the startup task
    # Note: FastAPI's startup events can't directly use BackgroundTasks, but we can use asyncio.create_task
    # to run the long-running process in the background without blocking the server startup.
    print(f"[{FLOW_ID}] Auto-starting processing from index: {start_index}...")
    asyncio.create_task(process_dataset_task(start_index))

@app.get("/")
async def root():
    progress = load_progress()
    return {
        "flow_id": FLOW_ID,
        "status": "ready",
        "last_processed_index": progress['last_processed_index'],
        "total_files_in_list": len(progress['file_list']),
        "processed_files_count": len(progress['processed_files']),
        "total_servers": len(servers),
        "busy_servers": sum(1 for s in servers if s.busy),
    }

@app.post("/start_processing")
async def start_processing(request: ProcessStartRequest, background_tasks: BackgroundTasks):
    """
    Starts the sequential processing of zip files from the given index in the background.
    """
    start_index = request.start_index
    
    print(f"[{FLOW_ID}] Received request to start processing from index: {start_index}. Starting background task.")
    
    # Start the heavy processing in a background task so the API call returns immediately
    # Note: The server is already auto-starting, but this allows for manual restart/override.
    background_tasks.add_task(process_dataset_task, start_index)
    
    return {"status": "processing", "start_index": start_index, "message": "Dataset processing started in background."}

if __name__ == "__main__":
    import uvicorn
    # Note: When running in the sandbox, we need to use 0.0.0.0 to expose the port.
    uvicorn.run(app, host="0.0.0.0", port=FLOW_PORT)