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anycoder / backend_api.py

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	"""
	FastAPI backend for AnyCoder - provides REST API endpoints
	"""
	from fastapi import FastAPI, HTTPException, Header, WebSocket, WebSocketDisconnect, Request, Response
	from fastapi.middleware.cors import CORSMiddleware
	from fastapi.responses import StreamingResponse, RedirectResponse, JSONResponse
	from pydantic import BaseModel
	from typing import Optional, List, Dict, AsyncGenerator
	import json
	import asyncio
	from datetime import datetime, timedelta
	import secrets
	import base64
	import urllib.parse
	import re

	# Import only what we need, avoiding Gradio UI imports
	import sys
	import os
	from huggingface_hub import InferenceClient
	import httpx

	# Import model handling from backend_models
	from backend_models import (
	get_inference_client,
	get_real_model_id,
	create_gemini3_messages,
	is_native_sdk_model,
	is_mistral_model
	)

	# Import project importer for importing from HF/GitHub
	from project_importer import ProjectImporter

	# Import system prompts from standalone backend_prompts.py
	# No dependencies on Gradio or heavy libraries
	print("[Startup] Loading system prompts from backend_prompts...")

	try:
	from backend_prompts import (
	HTML_SYSTEM_PROMPT,
	TRANSFORMERS_JS_SYSTEM_PROMPT,
	STREAMLIT_SYSTEM_PROMPT,
	REACT_SYSTEM_PROMPT,
	get_gradio_system_prompt, # Import the function to get dynamic prompt
	JSON_SYSTEM_PROMPT,
	GENERIC_SYSTEM_PROMPT
	)
	# Get the Gradio system prompt (includes full Gradio 6 documentation)
	GRADIO_SYSTEM_PROMPT = get_gradio_system_prompt()
	print("[Startup] ✅ All system prompts loaded successfully from backend_prompts.py")
	print(f"[Startup] 📚 Gradio system prompt loaded with full documentation ({len(GRADIO_SYSTEM_PROMPT)} chars)")
	except Exception as e:
	import traceback
	print(f"[Startup] ❌ ERROR: Could not import from backend_prompts: {e}")
	print(f"[Startup] Traceback: {traceback.format_exc()}")
	print("[Startup] Using minimal fallback prompts")

	# Define minimal fallback prompts
	HTML_SYSTEM_PROMPT = "You are an expert web developer. Create complete HTML applications with CSS and JavaScript."
	TRANSFORMERS_JS_SYSTEM_PROMPT = "You are an expert at creating transformers.js applications. Generate complete working code."
	STREAMLIT_SYSTEM_PROMPT = "You are an expert Streamlit developer. Create complete Streamlit applications."
	REACT_SYSTEM_PROMPT = "You are an expert React developer. Create complete React applications with Next.js."
	GRADIO_SYSTEM_PROMPT = "You are an expert Gradio developer. Create complete, working Gradio applications."
	JSON_SYSTEM_PROMPT = "You are an expert at generating JSON configurations. Create valid, well-structured JSON."
	GENERIC_SYSTEM_PROMPT = "You are an expert {language} developer. Create complete, working {language} applications."

	print("[Startup] System prompts initialization complete")

	# Cache system prompts map for fast lookup (created once at startup)
	SYSTEM_PROMPT_CACHE = {
	"html": HTML_SYSTEM_PROMPT,
	"gradio": GRADIO_SYSTEM_PROMPT,
	"streamlit": STREAMLIT_SYSTEM_PROMPT,
	"transformers.js": TRANSFORMERS_JS_SYSTEM_PROMPT,
	"react": REACT_SYSTEM_PROMPT,
	"comfyui": JSON_SYSTEM_PROMPT,
	}

	# Client connection pool for reuse (thread-safe)
	import threading
	_client_pool = {}
	_client_pool_lock = threading.Lock()

	def get_cached_client(model_id: str, provider: str = "auto"):
	"""Get or create a cached API client for reuse"""
	cache_key = f"{model_id}:{provider}"

	with _client_pool_lock:
	if cache_key not in _client_pool:
	_client_pool[cache_key] = get_inference_client(model_id, provider)
	return _client_pool[cache_key]

	# Define models and languages here to avoid importing Gradio UI
	AVAILABLE_MODELS = [
	{"name": "Gemini 3.0 Pro", "id": "gemini-3.0-pro", "description": "Google Gemini 3.0 Pro via Poe with advanced reasoning"},
	{"name": "Grok 4.1 Fast", "id": "x-ai/grok-4.1-fast", "description": "Grok 4.1 Fast model via OpenRouter (20 req/min on free tier)"},
	{"name": "MiniMax M2", "id": "MiniMaxAI/MiniMax-M2", "description": "MiniMax M2 model via HuggingFace InferenceClient with Novita provider"},
	{"name": "DeepSeek V3.2-Exp", "id": "deepseek-ai/DeepSeek-V3.2-Exp", "description": "DeepSeek V3.2 Experimental via HuggingFace"},
	{"name": "DeepSeek R1", "id": "deepseek-ai/DeepSeek-R1-0528", "description": "DeepSeek R1 model for code generation"},
	{"name": "GPT-5", "id": "gpt-5", "description": "OpenAI GPT-5 via OpenRouter"},
	{"name": "GPT-5.1", "id": "gpt-5.1", "description": "OpenAI GPT-5.1 model via Poe for advanced code generation and general tasks"},
	{"name": "GPT-5.1 Instant", "id": "gpt-5.1-instant", "description": "OpenAI GPT-5.1 Instant model via Poe for fast responses"},
	{"name": "GPT-5.1 Codex", "id": "gpt-5.1-codex", "description": "OpenAI GPT-5.1 Codex model via Poe optimized for code generation"},
	{"name": "Claude-Sonnet-4.5", "id": "claude-sonnet-4.5", "description": "Anthropic Claude Sonnet 4.5 via Poe (OpenAI-compatible)"},
	{"name": "Claude-Haiku-4.5", "id": "claude-haiku-4.5", "description": "Anthropic Claude Haiku 4.5 via Poe (OpenAI-compatible)"},
	{"name": "Kimi K2 Thinking", "id": "moonshotai/Kimi-K2-Thinking", "description": "Moonshot Kimi K2 Thinking model via HuggingFace with Together AI provider"},
	{"name": "GLM-4.6", "id": "zai-org/GLM-4.6", "description": "GLM-4.6 model via HuggingFace with Cerebras provider"},
	{"name": "Gemini Flash Latest", "id": "gemini-flash-latest", "description": "Google Gemini Flash via OpenRouter"},
	{"name": "Qwen3 Max Preview", "id": "qwen3-max-preview", "description": "Qwen3 Max Preview via DashScope API"},
	]

	# Cache model lookup for faster access (built after AVAILABLE_MODELS is defined)
	MODEL_CACHE = {model["id"]: model for model in AVAILABLE_MODELS}
	print(f"[Startup] ✅ Performance optimizations loaded: {len(SYSTEM_PROMPT_CACHE)} cached prompts, {len(MODEL_CACHE)} cached models, client pooling enabled")

	LANGUAGE_CHOICES = ["html", "gradio", "transformers.js", "streamlit", "comfyui", "react"]

	app = FastAPI(title="AnyCoder API", version="1.0.0")

	# OAuth and environment configuration (must be before CORS)
	OAUTH_CLIENT_ID = os.getenv("OAUTH_CLIENT_ID", "")
	OAUTH_CLIENT_SECRET = os.getenv("OAUTH_CLIENT_SECRET", "")
	OAUTH_SCOPES = os.getenv("OAUTH_SCOPES", "openid profile manage-repos")
	OPENID_PROVIDER_URL = os.getenv("OPENID_PROVIDER_URL", "https://huggingface.co")
	SPACE_HOST = os.getenv("SPACE_HOST", "localhost:7860")

	# Configure CORS - allow all origins in production, specific in dev
	# In Docker Space, requests come from the same domain via Next.js proxy
	ALLOWED_ORIGINS = os.getenv("ALLOWED_ORIGINS", "*").split(",") if os.getenv("ALLOWED_ORIGINS") else [
	"http://localhost:3000",
	"http://localhost:3001",
	"http://localhost:7860",
	f"https://{SPACE_HOST}" if SPACE_HOST and not SPACE_HOST.startswith("localhost") else "http://localhost:7860"
	]

	app.add_middleware(
	CORSMiddleware,
	allow_origins=ALLOWED_ORIGINS if ALLOWED_ORIGINS != [""] else [""],
	allow_credentials=True,
	allow_methods=["*"],
	allow_headers=["*"],
	allow_origin_regex=r"https://.*\.hf\.space" if SPACE_HOST and not SPACE_HOST.startswith("localhost") else None,
	)

	# In-memory store for OAuth states (in production, use Redis or similar)
	oauth_states = {}

	# In-memory store for user sessions
	user_sessions = {}


	def is_session_expired(session_data: dict) -> bool:
	"""Check if session has expired"""
	expires_at = session_data.get("expires_at")
	if not expires_at:
	# If no expiration info, check if session is older than 8 hours
	timestamp = session_data.get("timestamp", datetime.now())
	return (datetime.now() - timestamp) > timedelta(hours=8)

	return datetime.now() >= expires_at


	# Background task for cleaning up expired sessions
	async def cleanup_expired_sessions():
	"""Periodically clean up expired sessions"""
	while True:
	try:
	await asyncio.sleep(3600) # Run every hour

	expired_sessions = []
	for session_token, session_data in user_sessions.items():
	if is_session_expired(session_data):
	expired_sessions.append(session_token)

	for session_token in expired_sessions:
	user_sessions.pop(session_token, None)
	print(f"[Auth] Cleaned up expired session: {session_token[:10]}...")

	if expired_sessions:
	print(f"[Auth] Cleaned up {len(expired_sessions)} expired session(s)")
	except Exception as e:
	print(f"[Auth] Cleanup error: {e}")

	# Start cleanup task on app startup
	@app.on_event("startup")
	async def startup_event():
	"""Run startup tasks"""
	asyncio.create_task(cleanup_expired_sessions())
	print("[Startup] ✅ Session cleanup task started")


	# Pydantic models for request/response
	class CodeGenerationRequest(BaseModel):
	query: str
	language: str = "html"
	model_id: str = "MiniMaxAI/MiniMax-M2"
	provider: str = "auto"
	history: List[List[str]] = []
	agent_mode: bool = False


	class DeploymentRequest(BaseModel):
	code: str
	space_name: Optional[str] = None
	language: str
	requirements: Optional[str] = None
	existing_repo_id: Optional[str] = None # For updating existing spaces
	commit_message: Optional[str] = None


	class AuthStatus(BaseModel):
	authenticated: bool
	username: Optional[str] = None
	message: str


	class ModelInfo(BaseModel):
	name: str
	id: str
	description: str


	class CodeGenerationResponse(BaseModel):
	code: str
	history: List[List[str]]
	status: str


	class ImportRequest(BaseModel):
	url: str
	prefer_local: bool = False


	class ImportResponse(BaseModel):
	status: str
	message: str
	code: str
	language: str
	url: str
	metadata: Dict


	# Mock authentication for development
	# In production, integrate with HuggingFace OAuth
	class MockAuth:
	def __init__(self, token: Optional[str] = None, username: Optional[str] = None):
	self.token = token
	self.username = username

	def is_authenticated(self):
	return bool(self.token)


	def get_auth_from_header(authorization: Optional[str] = None):
	"""Extract authentication from header or session token"""
	if not authorization:
	return MockAuth(None, None)

	# Handle "Bearer " prefix
	if authorization.startswith("Bearer "):
	token = authorization.replace("Bearer ", "")
	else:
	token = authorization

	# Check if this is a session token (UUID format)
	if token and "-" in token and len(token) > 20:
	# Look up the session to get user info
	if token in user_sessions:
	session = user_sessions[token]
	return MockAuth(session["access_token"], session["username"])

	# Dev token format: dev_token_<username>_<timestamp>
	if token and token.startswith("dev_token_"):
	parts = token.split("_")
	username = parts[2] if len(parts) > 2 else "user"
	return MockAuth(token, username)

	# Regular token (OAuth access token passed directly)
	return MockAuth(token, None)


	@app.get("/")
	async def root():
	"""Health check endpoint"""
	return {"status": "ok", "message": "AnyCoder API is running"}


	@app.get("/api/models", response_model=List[ModelInfo])
	async def get_models():
	"""Get available AI models"""
	return [
	ModelInfo(
	name=model["name"],
	id=model["id"],
	description=model["description"]
	)
	for model in AVAILABLE_MODELS
	]


	@app.get("/api/languages")
	async def get_languages():
	"""Get available programming languages/frameworks"""
	return {"languages": LANGUAGE_CHOICES}


	@app.get("/api/auth/login")
	async def oauth_login(request: Request):
	"""Initiate OAuth login flow"""
	# Generate a random state to prevent CSRF
	state = secrets.token_urlsafe(32)
	oauth_states[state] = {"timestamp": datetime.now()}

	# Build redirect URI
	protocol = "https" if SPACE_HOST and not SPACE_HOST.startswith("localhost") else "http"
	redirect_uri = f"{protocol}://{SPACE_HOST}/api/auth/callback"

	# Build authorization URL
	auth_url = (
	f"{OPENID_PROVIDER_URL}/oauth/authorize"
	f"?client_id={OAUTH_CLIENT_ID}"
	f"&redirect_uri={urllib.parse.quote(redirect_uri)}"
	f"&scope={urllib.parse.quote(OAUTH_SCOPES)}"
	f"&state={state}"
	f"&response_type=code"
	)

	return JSONResponse({"login_url": auth_url, "state": state})


	@app.get("/api/auth/callback")
	async def oauth_callback(code: str, state: str, request: Request):
	"""Handle OAuth callback"""
	# Verify state to prevent CSRF
	if state not in oauth_states:
	raise HTTPException(status_code=400, detail="Invalid state parameter")

	# Clean up old states
	oauth_states.pop(state, None)

	# Exchange code for tokens
	protocol = "https" if SPACE_HOST and not SPACE_HOST.startswith("localhost") else "http"
	redirect_uri = f"{protocol}://{SPACE_HOST}/api/auth/callback"

	# Prepare authorization header
	auth_string = f"{OAUTH_CLIENT_ID}:{OAUTH_CLIENT_SECRET}"
	auth_bytes = auth_string.encode('utf-8')
	auth_b64 = base64.b64encode(auth_bytes).decode('utf-8')

	async with httpx.AsyncClient() as client:
	try:
	token_response = await client.post(
	f"{OPENID_PROVIDER_URL}/oauth/token",
	data={
	"client_id": OAUTH_CLIENT_ID,
	"code": code,
	"grant_type": "authorization_code",
	"redirect_uri": redirect_uri,
	},
	headers={
	"Authorization": f"Basic {auth_b64}",
	"Content-Type": "application/x-www-form-urlencoded",
	},
	)
	token_response.raise_for_status()
	token_data = token_response.json()

	# Get user info
	access_token = token_data.get("access_token")
	userinfo_response = await client.get(
	f"{OPENID_PROVIDER_URL}/oauth/userinfo",
	headers={"Authorization": f"Bearer {access_token}"},
	)
	userinfo_response.raise_for_status()
	user_info = userinfo_response.json()

	# Calculate token expiration
	# OAuth tokens typically have expires_in in seconds
	expires_in = token_data.get("expires_in", 28800) # Default 8 hours
	expires_at = datetime.now() + timedelta(seconds=expires_in)

	# Create session
	session_token = secrets.token_urlsafe(32)
	user_sessions[session_token] = {
	"access_token": access_token,
	"user_info": user_info,
	"timestamp": datetime.now(),
	"expires_at": expires_at,
	"username": user_info.get("name") or user_info.get("preferred_username") or "user",
	"deployed_spaces": [] # Track deployed spaces for follow-up updates
	}

	# Redirect to frontend with session token
	frontend_url = f"{protocol}://{SPACE_HOST}/?session={session_token}"
	return RedirectResponse(url=frontend_url)

	except httpx.HTTPError as e:
	print(f"OAuth error: {e}")
	raise HTTPException(status_code=500, detail=f"OAuth failed: {str(e)}")


	async def validate_token_with_hf(access_token: str) -> bool:
	"""Validate token with HuggingFace API"""
	try:
	async with httpx.AsyncClient() as client:
	response = await client.get(
	f"{OPENID_PROVIDER_URL}/oauth/userinfo",
	headers={"Authorization": f"Bearer {access_token}"},
	timeout=5.0
	)
	return response.status_code == 200
	except Exception as e:
	print(f"[Auth] Token validation error: {e}")
	return False


	@app.get("/api/auth/session")
	async def get_session(session: str):
	"""Get user info from session token"""
	if session not in user_sessions:
	raise HTTPException(status_code=401, detail="Invalid session")

	session_data = user_sessions[session]

	# Check if session has expired
	if is_session_expired(session_data):
	# Clean up expired session
	user_sessions.pop(session, None)
	raise HTTPException(status_code=401, detail="Session expired. Please sign in again.")

	# Validate token with HuggingFace
	if not await validate_token_with_hf(session_data["access_token"]):
	# Token is invalid, clean up session
	user_sessions.pop(session, None)
	raise HTTPException(status_code=401, detail="Authentication expired. Please sign in again.")

	return {
	"access_token": session_data["access_token"],
	"user_info": session_data["user_info"],
	}


	@app.get("/api/auth/status")
	async def auth_status(authorization: Optional[str] = Header(None)):
	"""Check authentication status and validate token"""
	auth = get_auth_from_header(authorization)

	if not auth.is_authenticated():
	return AuthStatus(
	authenticated=False,
	username=None,
	message="Not authenticated"
	)

	# For dev tokens, skip validation
	if auth.token and auth.token.startswith("dev_token_"):
	return AuthStatus(
	authenticated=True,
	username=auth.username,
	message=f"Authenticated as {auth.username} (dev mode)"
	)

	# For session tokens, check expiration and validate
	token = authorization.replace("Bearer ", "") if authorization else None
	if token and "-" in token and len(token) > 20 and token in user_sessions:
	session_data = user_sessions[token]

	# Check if session has expired
	if is_session_expired(session_data):
	# Clean up expired session
	user_sessions.pop(token, None)
	return AuthStatus(
	authenticated=False,
	username=None,
	message="Session expired"
	)

	# Validate token with HuggingFace
	if not await validate_token_with_hf(session_data["access_token"]):
	# Token is invalid, clean up session
	user_sessions.pop(token, None)
	return AuthStatus(
	authenticated=False,
	username=None,
	message="Authentication expired"
	)

	return AuthStatus(
	authenticated=True,
	username=auth.username,
	message=f"Authenticated as {auth.username}"
	)

	# For direct OAuth tokens, validate with HF
	if auth.token:
	is_valid = await validate_token_with_hf(auth.token)
	if is_valid:
	return AuthStatus(
	authenticated=True,
	username=auth.username,
	message=f"Authenticated as {auth.username}"
	)
	else:
	return AuthStatus(
	authenticated=False,
	username=None,
	message="Token expired or invalid"
	)

	return AuthStatus(
	authenticated=False,
	username=None,
	message="Not authenticated"
	)


	def cleanup_generated_code(code: str, language: str) -> str:
	"""Remove LLM explanatory text and extract only the actual code"""
	try:
	original_code = code

	# Special handling for ComfyUI JSON
	if language == "comfyui":
	# Try to parse as JSON first
	try:
	json.loads(code)
	return code # If it parses, return as-is
	except json.JSONDecodeError:
	pass

	# Find the last } in the code
	last_brace = code.rfind('}')
	if last_brace != -1:
	# Extract everything up to and including the last }
	potential_json = code[:last_brace + 1]

	# Try to find where the JSON actually starts
	json_start = 0
	if '```json' in potential_json:
	match = re.search(r'```json\s*\n', potential_json)
	if match:
	json_start = match.end()
	elif '```' in potential_json:
	match = re.search(r'```\s*\n', potential_json)
	if match:
	json_start = match.end()

	# Extract the JSON
	cleaned_json = potential_json[json_start:].strip()
	cleaned_json = re.sub(r'```\s*$', '', cleaned_json).strip()

	# Validate
	try:
	json.loads(cleaned_json)
	return cleaned_json
	except json.JSONDecodeError:
	pass

	# General cleanup for code languages
	# Remove markdown code blocks and extract code
	if '```' in code:
	# Pattern to match code blocks with language specifiers
	patterns = [
	r'```(?:html\|HTML)\s*\n([\s\S]+?)(?:\n```\|$)',
	r'```(?:python\|py\|Python)\s*\n([\s\S]+?)(?:\n```\|$)',
	r'```(?:javascript\|js\|jsx\|JavaScript)\s*\n([\s\S]+?)(?:\n```\|$)',
	r'```(?:typescript\|ts\|tsx\|TypeScript)\s*\n([\s\S]+?)(?:\n```\|$)',
	r'```\s*\n([\s\S]+?)(?:\n```\|$)', # Generic code block
	]

	for pattern in patterns:
	match = re.search(pattern, code, re.IGNORECASE)
	if match:
	code = match.group(1).strip()
	break

	# Remove common LLM explanatory patterns
	# Remove lines that start with explanatory text
	lines = code.split('\n')
	cleaned_lines = []
	in_code = False

	for line in lines:
	stripped = line.strip()

	# Skip common explanatory patterns at the start
	if not in_code and (
	stripped.lower().startswith('here') or
	stripped.lower().startswith('this') or
	stripped.lower().startswith('the above') or
	stripped.lower().startswith('note:') or
	stripped.lower().startswith('explanation:') or
	stripped.lower().startswith('to use') or
	stripped.lower().startswith('usage:') or
	stripped.lower().startswith('instructions:') or
	stripped.startswith('===') and '===' in stripped # Section markers
	):
	continue

	# Once we hit actual code, we're in
	if stripped and not stripped.startswith('#') and not stripped.startswith('//'):
	in_code = True

	cleaned_lines.append(line)

	code = '\n'.join(cleaned_lines).strip()

	# Remove trailing explanatory text after the code ends
	# For HTML: remove everything after final closing tag
	if language == "html":
	# Find last </html> or </body> or </div> at root level
	last_html = code.rfind('</html>')
	last_body = code.rfind('</body>')
	last_tag = max(last_html, last_body)
	if last_tag != -1:
	# Check if there's significant text after
	after_tag = code[last_tag + 7:].strip() # +7 for </html> length
	if after_tag and len(after_tag) > 100: # Significant explanatory text
	code = code[:last_tag + 7].strip()

	# For Python: remove text after the last function/class definition or code block
	elif language in ["gradio", "streamlit"]:
	# Find the last line that looks like actual code (not comments or blank)
	lines = code.split('\n')
	last_code_line = -1
	for i in range(len(lines) - 1, -1, -1):
	stripped = lines[i].strip()
	if stripped and not stripped.startswith('#') and not stripped.startswith('"""') and not stripped.startswith("'''"):
	# This looks like actual code
	last_code_line = i
	break

	if last_code_line != -1 and last_code_line < len(lines) - 5:
	# If there are more than 5 lines after last code, likely explanatory
	code = '\n'.join(lines[:last_code_line + 1])

	# Return cleaned code or original if cleaning made it too short
	if len(code) > 50:
	return code
	else:
	return original_code

	except Exception as e:
	print(f"[Code Cleanup] Error for {language}: {e}")
	return code


	@app.post("/api/generate")
	async def generate_code(
	request: CodeGenerationRequest,
	authorization: Optional[str] = Header(None)
	):
	"""Generate code based on user query - returns streaming response"""
	# Dev mode: No authentication required - just use server's HF_TOKEN
	# In production, you would check real OAuth tokens here

	# Extract parameters from request body
	query = request.query
	language = request.language
	model_id = request.model_id
	provider = request.provider

	async def event_stream() -> AsyncGenerator[str, None]:
	"""Stream generated code chunks"""
	# Use the model_id from outer scope
	selected_model_id = model_id

	try:
	# Fast model lookup using cache
	selected_model = MODEL_CACHE.get(selected_model_id)
	if not selected_model:
	# Fallback to first available model (shouldn't happen often)
	selected_model = AVAILABLE_MODELS[0]
	selected_model_id = selected_model["id"]

	# Track generated code
	generated_code = ""

	# Fast system prompt lookup using cache
	system_prompt = SYSTEM_PROMPT_CACHE.get(language)
	if not system_prompt:
	# Format generic prompt only if needed
	system_prompt = GENERIC_SYSTEM_PROMPT.format(language=language)

	# Get cached client (reuses connections)
	client = get_cached_client(selected_model_id, provider)

	# Get the real model ID with provider suffixes
	actual_model_id = get_real_model_id(selected_model_id)

	# Prepare messages (optimized - no string concatenation in hot path)
	user_content = f"Generate a {language} application: {query}"
	messages = [
	{"role": "system", "content": system_prompt},
	{"role": "user", "content": user_content}
	]

	# Stream the response
	try:
	# Handle Mistral models with different API
	if is_mistral_model(selected_model_id):
	print("[Generate] Using Mistral SDK")
	stream = client.chat.stream(
	model=actual_model_id,
	messages=messages,
	max_tokens=10000
	)

	# All other models use OpenAI-compatible API
	else:
	stream = client.chat.completions.create(
	model=actual_model_id,
	messages=messages,
	temperature=0.7,
	max_tokens=10000,
	stream=True
	)

	chunk_count = 0
	is_mistral = is_mistral_model(selected_model_id)

	# Optimized chunk processing - reduce attribute lookups
	for chunk in stream:
	chunk_content = None

	if is_mistral:
	# Mistral format: chunk.data.choices[0].delta.content
	try:
	if chunk.data and chunk.data.choices and chunk.data.choices[0].delta.content:
	chunk_content = chunk.data.choices[0].delta.content
	except (AttributeError, IndexError):
	continue
	else:
	# OpenAI format: chunk.choices[0].delta.content
	try:
	if chunk.choices and chunk.choices[0].delta.content:
	chunk_content = chunk.choices[0].delta.content
	except (AttributeError, IndexError):
	continue

	if chunk_content:
	generated_code += chunk_content
	chunk_count += 1

	# Send chunk immediately - optimized JSON serialization
	# Only yield control every 5 chunks to reduce overhead
	if chunk_count % 5 == 0:
	await asyncio.sleep(0)

	# Build event data efficiently
	event_data = json.dumps({
	"type": "chunk",
	"content": chunk_content
	})
	yield f"data: {event_data}\n\n"

	# Clean up generated code (remove LLM explanatory text and markdown)
	generated_code = cleanup_generated_code(generated_code, language)

	# Send completion event (optimized - no timestamp in hot path)
	completion_data = json.dumps({
	"type": "complete",
	"code": generated_code
	})
	yield f"data: {completion_data}\n\n"

	except Exception as e:
	# Handle rate limiting and other API errors
	error_message = str(e)
	is_rate_limit = False
	error_type = type(e).__name__

	# Check for OpenAI SDK rate limit errors
	if error_type == "RateLimitError" or "rate_limit" in error_type.lower():
	is_rate_limit = True
	# Check if this is a rate limit error (429 status code)
	elif hasattr(e, 'status_code') and e.status_code == 429:
	is_rate_limit = True
	# Check error message for rate limit indicators
	elif "429" in error_message or "rate limit" in error_message.lower() or "too many requests" in error_message.lower():
	is_rate_limit = True

	if is_rate_limit:
	# Try to extract retry-after header or message
	retry_after = None
	if hasattr(e, 'response') and e.response:
	retry_after = e.response.headers.get('Retry-After') or e.response.headers.get('retry-after')
	# Also check if the error object has retry_after
	elif hasattr(e, 'retry_after'):
	retry_after = str(e.retry_after)

	if selected_model_id == "x-ai/grok-4.1-fast" or selected_model_id.startswith("openrouter/"):
	error_message = "⏱️ Rate limit exceeded for OpenRouter model"
	if retry_after:
	error_message += f". Please wait {retry_after} seconds before trying again."
	else:
	error_message += ". Free tier allows up to 20 requests per minute. Please wait a moment and try again."
	else:
	error_message = f"⏱️ Rate limit exceeded. Please wait before trying again."
	if retry_after:
	error_message += f" Retry after {retry_after} seconds."

	# Check for other common API errors
	elif hasattr(e, 'status_code'):
	if e.status_code == 401:
	error_message = "❌ Authentication failed. Please check your API key."
	elif e.status_code == 403:
	error_message = "❌ Access forbidden. Please check your API key permissions."
	elif e.status_code == 500 or e.status_code == 502 or e.status_code == 503:
	error_message = "❌ Service temporarily unavailable. Please try again later."

	error_data = json.dumps({
	"type": "error",
	"message": error_message
	})
	yield f"data: {error_data}\n\n"

	except Exception as e:
	# Fallback error handling
	error_message = str(e)
	# Check if it's a rate limit error in the exception message
	if "429" in error_message or "rate limit" in error_message.lower() or "too many requests" in error_message.lower():
	if selected_model_id == "x-ai/grok-4.1-fast" or selected_model_id.startswith("openrouter/"):
	error_message = "⏱️ Rate limit exceeded for OpenRouter model. Free tier allows up to 20 requests per minute. Please wait a moment and try again."
	else:
	error_message = "⏱️ Rate limit exceeded. Please wait before trying again."

	error_data = json.dumps({
	"type": "error",
	"message": f"Generation error: {error_message}"
	})
	yield f"data: {error_data}\n\n"

	return StreamingResponse(
	event_stream(),
	media_type="text/event-stream",
	headers={
	"Cache-Control": "no-cache, no-transform",
	"Connection": "keep-alive",
	"X-Accel-Buffering": "no",
	"Content-Encoding": "none",
	"Transfer-Encoding": "chunked"
	}
	)


	@app.post("/api/deploy")
	async def deploy(
	request: DeploymentRequest,
	authorization: Optional[str] = Header(None)
	):
	"""Deploy generated code to HuggingFace Spaces"""
	auth = get_auth_from_header(authorization)

	if not auth.is_authenticated():
	raise HTTPException(status_code=401, detail="Authentication required")

	# Check if this is dev mode (no real token)
	if auth.token and auth.token.startswith("dev_token_"):
	# In dev mode, open HF Spaces creation page
	from backend_deploy import detect_sdk_from_code
	base_url = "https://huggingface.co/new-space"

	sdk = detect_sdk_from_code(request.code, request.language)

	params = urllib.parse.urlencode({
	"name": request.space_name or "my-anycoder-app",
	"sdk": sdk
	})

	# Prepare file content based on language
	if request.language in ["html", "transformers.js", "comfyui"]:
	file_path = "index.html"
	else:
	file_path = "app.py"

	files_params = urllib.parse.urlencode({
	"files[0][path]": file_path,
	"files[0][content]": request.code
	})

	space_url = f"{base_url}?{params}&{files_params}"

	return {
	"success": True,
	"space_url": space_url,
	"message": "Dev mode: Please create the space manually",
	"dev_mode": True
	}

	# Production mode with real OAuth token
	try:
	from backend_deploy import deploy_to_huggingface_space

	# Get user token - should be the access_token from OAuth session
	user_token = auth.token if auth.token else os.getenv("HF_TOKEN")

	if not user_token:
	raise HTTPException(status_code=401, detail="No HuggingFace token available. Please sign in first.")

	print(f"[Deploy] Attempting deployment with token (first 10 chars): {user_token[:10]}...")
	print(f"[Deploy] Request parameters - language: {request.language}, space_name: {request.space_name}, existing_repo_id: {request.existing_repo_id}")

	# Check for existing deployed space in this session
	existing_repo_id = request.existing_repo_id
	session_token = authorization.replace("Bearer ", "") if authorization else None

	# If no existing_repo_id provided, check session for previously deployed spaces
	if not existing_repo_id and session_token and session_token in user_sessions:
	session = user_sessions[session_token]
	deployed_spaces = session.get("deployed_spaces", [])

	# Find the most recent space for this language
	for space in reversed(deployed_spaces):
	if space.get("language") == request.language:
	existing_repo_id = space.get("repo_id")
	print(f"[Deploy] Found existing space for {request.language}: {existing_repo_id}")
	break

	# Use the standalone deployment function
	print(f"[Deploy] Calling deploy_to_huggingface_space with existing_repo_id: {existing_repo_id}")
	success, message, space_url = deploy_to_huggingface_space(
	code=request.code,
	language=request.language,
	space_name=request.space_name,
	token=user_token,
	username=auth.username,
	description=request.description if hasattr(request, 'description') else None,
	private=False,
	existing_repo_id=existing_repo_id,
	commit_message=request.commit_message
	)

	if success:
	# Extract repo_id from space_url
	repo_id = space_url.split("/spaces/")[-1] if space_url else None
	print(f"[Deploy] Success! Repo ID: {repo_id}")

	# Track deployed space in session for follow-up updates
	if session_token and session_token in user_sessions:
	if repo_id:
	session = user_sessions[session_token]
	deployed_spaces = session.get("deployed_spaces", [])

	# Update or add the space
	space_entry = {
	"repo_id": repo_id,
	"language": request.language,
	"timestamp": datetime.now()
	}

	# Remove old entry for same repo_id if exists
	deployed_spaces = [s for s in deployed_spaces if s.get("repo_id") != repo_id]
	deployed_spaces.append(space_entry)

	session["deployed_spaces"] = deployed_spaces
	print(f"[Deploy] Tracked space in session: {repo_id}")

	return {
	"success": True,
	"space_url": space_url,
	"message": message,
	"repo_id": repo_id
	}
	else:
	# Provide user-friendly error message based on the error
	if "401" in message or "Unauthorized" in message:
	raise HTTPException(
	status_code=401,
	detail="Authentication failed. Please sign in again with HuggingFace."
	)
	elif "403" in message or "Forbidden" in message or "Permission" in message:
	raise HTTPException(
	status_code=403,
	detail="Permission denied. Your HuggingFace token may not have the required permissions (manage-repos scope)."
	)
	else:
	raise HTTPException(
	status_code=500,
	detail=message
	)

	except HTTPException:
	# Re-raise HTTP exceptions as-is
	raise
	except Exception as e:
	# Log the full error for debugging
	import traceback
	error_details = traceback.format_exc()
	print(f"[Deploy] Deployment error: {error_details}")

	raise HTTPException(
	status_code=500,
	detail=f"Deployment failed: {str(e)}"
	)


	@app.post("/api/import", response_model=ImportResponse)
	async def import_project(request: ImportRequest):
	"""
	Import a project from HuggingFace Space, HuggingFace Model, or GitHub repo

	Supports URLs like:
	- https://huggingface.co/spaces/username/space-name
	- https://huggingface.co/username/model-name
	- https://github.com/username/repo-name
	"""
	try:
	importer = ProjectImporter()
	result = importer.import_from_url(request.url)

	# Handle model-specific prefer_local flag
	if request.prefer_local and result.get('metadata', {}).get('has_alternatives'):
	# Switch to local code if available
	local_code = result['metadata'].get('local_code')
	if local_code:
	result['code'] = local_code
	result['metadata']['code_type'] = 'local'
	result['message'] = result['message'].replace('inference', 'local')

	return ImportResponse(**result)

	except Exception as e:
	return ImportResponse(
	status="error",
	message=f"Import failed: {str(e)}",
	code="",
	language="unknown",
	url=request.url,
	metadata={}
	)


	@app.get("/api/import/space/{username}/{space_name}")
	async def import_space(username: str, space_name: str):
	"""Import a specific HuggingFace Space by username and space name"""
	try:
	importer = ProjectImporter()
	result = importer.import_space(username, space_name)
	return result
	except Exception as e:
	return {
	"status": "error",
	"message": f"Failed to import space: {str(e)}",
	"code": "",
	"language": "unknown",
	"url": f"https://huggingface.co/spaces/{username}/{space_name}",
	"metadata": {}
	}


	@app.get("/api/import/model/{path:path}")
	async def import_model(path: str, prefer_local: bool = False):
	"""
	Import a specific HuggingFace Model by model ID

	Example: /api/import/model/meta-llama/Llama-3.2-1B-Instruct
	"""
	try:
	importer = ProjectImporter()
	result = importer.import_model(path, prefer_local=prefer_local)
	return result
	except Exception as e:
	return {
	"status": "error",
	"message": f"Failed to import model: {str(e)}",
	"code": "",
	"language": "python",
	"url": f"https://huggingface.co/{path}",
	"metadata": {}
	}


	@app.get("/api/import/github/{owner}/{repo}")
	async def import_github(owner: str, repo: str):
	"""Import a GitHub repository by owner and repo name"""
	try:
	importer = ProjectImporter()
	result = importer.import_github_repo(owner, repo)
	return result
	except Exception as e:
	return {
	"status": "error",
	"message": f"Failed to import repository: {str(e)}",
	"code": "",
	"language": "python",
	"url": f"https://github.com/{owner}/{repo}",
	"metadata": {}
	}


	@app.websocket("/ws/generate")
	async def websocket_generate(websocket: WebSocket):
	"""WebSocket endpoint for real-time code generation"""
	await websocket.accept()

	try:
	while True:
	# Receive message from client
	data = await websocket.receive_json()

	query = data.get("query")
	language = data.get("language", "html")
	model_id = data.get("model_id", "MiniMaxAI/MiniMax-M2")

	# Send acknowledgment
	await websocket.send_json({
	"type": "status",
	"message": "Generating code..."
	})

	# Mock code generation for now
	await asyncio.sleep(0.5)

	# Send generated code in chunks
	sample_code = f"<!-- Generated {language} code -->\n<h1>Hello from AnyCoder!</h1>"

	for i, char in enumerate(sample_code):
	await websocket.send_json({
	"type": "chunk",
	"content": char,
	"progress": (i + 1) / len(sample_code) * 100
	})
	await asyncio.sleep(0.01)

	# Send completion
	await websocket.send_json({
	"type": "complete",
	"code": sample_code
	})

	except WebSocketDisconnect:
	print("Client disconnected")
	except Exception as e:
	await websocket.send_json({
	"type": "error",
	"message": str(e)
	})
	await websocket.close()


	if __name__ == "__main__":
	import uvicorn
	uvicorn.run("backend_api:app", host="0.0.0.0", port=8000, reload=True)