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| from fastapi import FastAPI, HTTPException | |
| from pydantic import BaseModel | |
| from llama_cpp import Llama | |
| from concurrent.futures import ProcessPoolExecutor, as_completed | |
| import uvicorn | |
| from dotenv import load_dotenv | |
| from difflib import SequenceMatcher | |
| from tqdm import tqdm | |
| load_dotenv() | |
| app = FastAPI() | |
| # Configuraci贸n de los modelos | |
| models = [ | |
| {"repo_id": "Ffftdtd5dtft/gpt2-xl-Q2_K-GGUF", "filename": "gpt2-xl-q2_k.gguf"}, | |
| {"repo_id": "Ffftdtd5dtft/Meta-Llama-3.1-8B-Instruct-Q2_K-GGUF", "filename": "meta-llama-3.1-8b-instruct-q2_k.gguf"}, | |
| {"repo_id": "Ffftdtd5dtft/gemma-2-9b-it-Q2_K-GGUF", "filename": "gemma-2-9b-it-q2_k.gguf"}, | |
| {"repo_id": "Ffftdtd5dtft/gemma-2-27b-Q2_K-GGUF", "filename": "gemma-2-27b-q2_k.gguf"}, | |
| ] | |
| # Funci贸n para cargar un modelo | |
| def load_model(model_config): | |
| return Llama.from_pretrained(repo_id=model_config['repo_id'], filename=model_config['filename']) | |
| # Cargar modelos en paralelo | |
| def load_all_models(): | |
| with ProcessPoolExecutor() as executor: | |
| future_to_model = {executor.submit(load_model, model): model for model in models} | |
| loaded_models = {} | |
| for future in as_completed(future_to_model): | |
| model = future_to_model[future] | |
| try: | |
| loaded_models[model['repo_id']] = future.result() | |
| print(f"Modelo cargado en RAM: {model['repo_id']}") | |
| except Exception as exc: | |
| print(f"Error al cargar modelo {model['repo_id']}: {exc}") | |
| return loaded_models | |
| # Cargar modelos en memoria | |
| llms = load_all_models() | |
| class ChatRequest(BaseModel): | |
| message: str | |
| top_k: int = 50 | |
| top_p: float = 0.95 | |
| temperature: float = 0.7 | |
| # Funci贸n global para generar respuestas de chat | |
| def generate_chat_response(request, llm): | |
| try: | |
| user_input = normalize_input(request.message) | |
| response = llm.create_chat_completion( | |
| messages=[{"role": "user", "content": user_input}], | |
| top_k=request.top_k, | |
| top_p=request.top_p, | |
| temperature=request.temperature | |
| ) | |
| reply = response['choices'][0]['message']['content'] | |
| return {"response": reply, "literal": user_input} | |
| except Exception as e: | |
| return {"response": f"Error: {str(e)}", "literal": user_input} | |
| def normalize_input(input_text): | |
| return input_text.strip() | |
| def filter_duplicates(responses): | |
| seen = set() | |
| unique_responses = [] | |
| for response in responses: | |
| lines = response.split('\n') | |
| unique_lines = set() | |
| for line in lines: | |
| if line not in seen: | |
| seen.add(line) | |
| unique_lines.add(line) | |
| unique_responses.append('\n'.join(unique_lines)) | |
| return unique_responses | |
| def select_best_response(responses): | |
| # Eliminar respuestas duplicadas | |
| unique_responses = filter_duplicates(responses) | |
| # Deduplicar respuestas | |
| unique_responses = list(set(unique_responses)) | |
| # Filtrar respuestas coherentes | |
| coherent_responses = filter_by_coherence(unique_responses) | |
| # Seleccionar la mejor respuesta | |
| best_response = filter_by_similarity(coherent_responses) | |
| return best_response | |
| def filter_by_coherence(responses): | |
| # Implementa aqu铆 un filtro de coherencia si es necesario | |
| return responses | |
| def filter_by_similarity(responses): | |
| responses.sort(key=len, reverse=True) | |
| best_response = responses[0] | |
| for i in range(1, len(responses)): | |
| ratio = SequenceMatcher(None, best_response, responses[i]).ratio() | |
| if ratio < 0.9: | |
| best_response = responses[i] | |
| break | |
| return best_response | |
| def worker_function(llm, request): | |
| return generate_chat_response(request, llm) | |
| async def generate_chat(request: ChatRequest): | |
| if not request.message.strip(): | |
| raise HTTPException(status_code=400, detail="The message cannot be empty.") | |
| print(f"Procesando solicitud: {request.message}") | |
| with ProcessPoolExecutor() as executor: | |
| futures = [executor.submit(worker_function, llm, request) for llm in llms.values()] | |
| responses = [] | |
| for future in tqdm(as_completed(futures), total=len(futures), desc="Generando respuestas"): | |
| response = future.result() | |
| responses.append(response['response']) | |
| print(f"Modelo procesado: {response['literal'][:30]}...") | |
| # Seleccionar la mejor respuesta | |
| best_response = select_best_response(responses) | |
| print(f"Mejor respuesta seleccionada: {best_response}") | |
| return { | |
| "best_response": best_response, | |
| "all_responses": responses | |
| } | |
| if __name__ == "__main__": | |
| uvicorn.run(app, host="0.0.0.0", port=7860) | |