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 from __future__ import annotations
from fastapi import FastAPI, UploadFile, File, Form, BackgroundTasks, HTTPException
from fastapi import Body
from fastapi.responses import JSONResponse, FileResponse
from fastapi.middleware.cors import CORSMiddleware
from pathlib import Path
import shutil
import uvicorn
import json
import uuid
from datetime import datetime
from typing import Dict
from enum import Enum
import os
from video_processing import process_video_pipeline
from audio_tools import process_audio_for_video, extract_audio_ffmpeg, embed_voice_segments
from casting_loader import ensure_chroma, build_faces_index, build_voices_index
from narration_system import NarrationSystem
from llm_router import load_yaml, LLMRouter
from character_detection import detect_characters_from_video
from pipelines.audiodescription import generate as ad_generate
app = FastAPI(title="Veureu Engine API", version="0.2.0")
app.add_middleware(
CORSMiddleware,
allow_origins=["*"],
allow_credentials=True,
allow_methods=["*"],
allow_headers=["*"],
)
ROOT = Path("/tmp/veureu")
ROOT.mkdir(parents=True, exist_ok=True)
TEMP_ROOT = Path("/tmp/temp")
TEMP_ROOT.mkdir(parents=True, exist_ok=True)
VIDEOS_ROOT = Path("/tmp/data/videos")
VIDEOS_ROOT.mkdir(parents=True, exist_ok=True)
IDENTITIES_ROOT = Path("/tmp/characters")
IDENTITIES_ROOT.mkdir(parents=True, exist_ok=True)
# Sistema de jobs asíncronos
class JobStatus(str, Enum):
QUEUED = "queued"
PROCESSING = "processing"
DONE = "done"
FAILED = "failed"
jobs: Dict[str, dict] = {}
def hierarchical_cluster_with_min_size(X, max_groups: int, min_cluster_size: int):
"""
Clustering jerárquico aglomerativo que produce hasta max_groups clusters.
Filtra clusters con menos de min_cluster_size muestras (marcados como -1/ruido).
Args:
X: Array de embeddings (N, D)
max_groups: Número máximo de clusters a formar
min_cluster_size: Tamaño mínimo de cluster válido
Returns:
Array de labels (N,) donde -1 indica ruido
"""
import numpy as np
from scipy.cluster.hierarchy import linkage, fcluster
from collections import Counter
if len(X) == 0:
return np.array([])
if len(X) < min_cluster_size:
# Si hay menos muestras que el mínimo, todo es ruido
return np.full(len(X), -1, dtype=int)
# Linkage usando distancia euclidiana con método 'ward'
Z = linkage(X, method='ward', metric='euclidean')
# Cortar el dendrograma en max_groups clusters
labels = fcluster(Z, t=max_groups, criterion='maxclust')
# fcluster devuelve labels 1-indexed, convertir a 0-indexed
labels = labels - 1
# Filtrar clusters pequeños
label_counts = Counter(labels)
filtered_labels = []
for lbl in labels:
if label_counts[lbl] >= min_cluster_size:
filtered_labels.append(lbl)
else:
filtered_labels.append(-1) # Ruido
return np.array(filtered_labels, dtype=int)
@app.get("/")
def root():
return {"ok": True, "service": "veureu-engine"}
@app.post("/process_video")
async def process_video(
video_file: UploadFile = File(...),
config_path: str = Form("config.yaml"),
out_root: str = Form("results"),
db_dir: str = Form("chroma_db"),
):
tmp_video = ROOT / video_file.filename
with tmp_video.open("wb") as f:
shutil.copyfileobj(video_file.file, f)
result = process_video_pipeline(str(tmp_video), config_path=config_path, out_root=out_root, db_dir=db_dir)
return JSONResponse(result)
@app.post("/create_initial_casting")
async def create_initial_casting(
background_tasks: BackgroundTasks,
video: UploadFile = File(...),
max_groups: int = Form(5),
min_cluster_size: int = Form(3),
voice_max_groups: int = Form(5),
voice_min_cluster_size: int = Form(3),
max_frames: int = Form(100),
):
"""
Crea un job para procesar el vídeo de forma asíncrona usando clustering jerárquico.
Devuelve un job_id inmediatamente.
"""
# Guardar vídeo en carpeta de datos
video_name = Path(video.filename).stem
dst_video = VIDEOS_ROOT / f"{video_name}.mp4"
with dst_video.open("wb") as f:
shutil.copyfileobj(video.file, f)
# Crear job_id único
job_id = str(uuid.uuid4())
# Inicializar el job
jobs[job_id] = {
"id": job_id,
"status": JobStatus.QUEUED,
"video_path": str(dst_video),
"video_name": video_name,
"max_groups": int(max_groups),
"min_cluster_size": int(min_cluster_size),
"voice_max_groups": int(voice_max_groups),
"voice_min_cluster_size": int(voice_min_cluster_size),
"max_frames": int(max_frames),
"created_at": datetime.now().isoformat(),
"results": None,
"error": None
}
print(f"[{job_id}] Job creado para vídeo: {video_name}")
# Iniciar procesamiento en background
background_tasks.add_task(process_video_job, job_id)
# Devolver job_id inmediatamente
return {"job_id": job_id}
@app.get("/jobs/{job_id}/status")
def get_job_status(job_id: str):
"""
Devuelve el estado actual de un job.
El UI hace polling de este endpoint cada 5 segundos.
"""
if job_id not in jobs:
raise HTTPException(status_code=404, detail="Job not found")
job = jobs[job_id]
# Normalizar el estado a string
status_value = job["status"].value if isinstance(job["status"], JobStatus) else str(job["status"])
response = {"status": status_value}
# Incluir resultados si existen (evita condiciones de carrera)
if job.get("results") is not None:
response["results"] = job["results"]
# Incluir error si existe
if job.get("error"):
response["error"] = job["error"]
return response
@app.get("/files/{video_name}/{char_id}/{filename}")
def serve_character_file(video_name: str, char_id: str, filename: str):
"""
Sirve archivos estáticos de personajes (imágenes).
Ejemplo: /files/dif_catala_1/char1/representative.jpg
"""
# Las caras se guardan en /tmp/temp/<video>/characters/<char_id>/<filename>
file_path = TEMP_ROOT / video_name / "characters" / char_id / filename
if not file_path.exists():
raise HTTPException(status_code=404, detail="File not found")
return FileResponse(file_path)
@app.get("/audio/{video_name}/{filename}")
def serve_audio_file(video_name: str, filename: str):
file_path = TEMP_ROOT / video_name / "clips" / filename
if not file_path.exists():
raise HTTPException(status_code=404, detail="File not found")
return FileResponse(file_path)
def process_video_job(job_id: str):
"""
Procesa el vídeo de forma asíncrona.
Esta función se ejecuta en background.
"""
try:
job = jobs[job_id]
print(f"[{job_id}] Iniciando procesamiento...")
# Cambiar estado a processing
job["status"] = JobStatus.PROCESSING
video_path = job["video_path"]
video_name = job["video_name"]
max_groups = int(job.get("max_groups", 5))
min_cluster_size = int(job.get("min_cluster_size", 3))
v_max_groups = int(job.get("voice_max_groups", 5))
v_min_cluster = int(job.get("voice_min_cluster_size", 3))
# Crear estructura de carpetas
base = TEMP_ROOT / video_name
base.mkdir(parents=True, exist_ok=True)
print(f"[{job_id}] Directorio base: {base}")
# Detección de caras y embeddings (CPU), alineado con 'originales'
try:
print(f"[{job_id}] Iniciando detección de personajes (CPU, originales)...")
import cv2
import numpy as np
try:
import face_recognition # CPU
_use_fr = True
print(f"[{job_id}] face_recognition disponible: CPU")
except Exception:
face_recognition = None # type: ignore
_use_fr = False
print(f"[{job_id}] face_recognition no disponible. Intentando DeepFace fallback.")
try:
from deepface import DeepFace # type: ignore
except Exception:
DeepFace = None # type: ignore
cap = cv2.VideoCapture(video_path)
if not cap.isOpened():
raise RuntimeError("No se pudo abrir el vídeo para extracción de caras")
fps = cap.get(cv2.CAP_PROP_FPS) or 25.0
total_frames = int(cap.get(cv2.CAP_PROP_FRAME_COUNT) or 0)
max_samples = job.get("max_frames", 100)
# Índices de frames equiespaciados
if total_frames > 0:
frame_indices = sorted(set(np.linspace(0, max(0, total_frames - 1), num=min(max_samples, max(1, total_frames)), dtype=int).tolist()))
else:
frame_indices = []
print(f"[{job_id}] Total frames: {total_frames}, FPS: {fps:.2f}, Muestreando {len(frame_indices)} frames equiespaciados (máx {max_samples})")
# Salidas
faces_root = base / "faces_raw"
faces_root.mkdir(parents=True, exist_ok=True)
embeddings: list[list[float]] = []
crops_meta: list[dict] = []
saved_count = 0
frames_processed = 0
frames_with_faces = 0
for frame_idx in frame_indices:
cap.set(cv2.CAP_PROP_POS_FRAMES, int(frame_idx))
ret2, frame = cap.read()
if not ret2:
continue
frames_processed += 1
rgb = cv2.cvtColor(frame, cv2.COLOR_BGR2RGB)
if _use_fr and face_recognition is not None:
boxes = face_recognition.face_locations(rgb, model="hog") # CPU HOG
encs = face_recognition.face_encodings(rgb, boxes)
if boxes:
frames_with_faces += 1
print(f"[{job_id}] Frame {frame_idx}: {len(boxes)} cara(s) detectada(s) con face_recognition")
for (top, right, bottom, left), e in zip(boxes, encs):
crop = frame[top:bottom, left:right]
if crop.size == 0:
continue
fn = f"face_{frame_idx:06d}_{saved_count:03d}.jpg"
cv2.imwrite(str(faces_root / fn), crop)
# Normalizar embedding
e = np.array(e, dtype=float)
e = e / (np.linalg.norm(e) + 1e-9)
embeddings.append(e.astype(float).tolist())
crops_meta.append({
"file": fn,
"frame": frame_idx,
"box": [int(top), int(right), int(bottom), int(left)],
})
saved_count += 1
else:
# DeepFace fallback con detección de bounding boxes vía Haar Cascade (OpenCV)
if DeepFace is None:
pass
else:
try:
gray = cv2.cvtColor(frame, cv2.COLOR_BGR2GRAY)
try:
haar_path = getattr(cv2.data, 'haarcascades', None) or ''
face_cascade = cv2.CascadeClassifier(os.path.join(haar_path, 'haarcascade_frontalface_default.xml'))
except Exception:
face_cascade = None
boxes_haar = []
if face_cascade is not None and not face_cascade.empty():
# Parámetros más estrictos para evitar falsos positivos
faces_haar = face_cascade.detectMultiScale(gray, scaleFactor=1.08, minNeighbors=5, minSize=(50, 50))
for (x, y, w, h) in faces_haar:
top, left, bottom, right = max(0, y), max(0, x), min(frame.shape[0], y+h), min(frame.shape[1], x+w)
boxes_haar.append((top, right, bottom, left))
# Si Haar no detecta nada, intentar con DeepFace directamente
if not boxes_haar:
try:
tmp_detect = faces_root / f"detect_{frame_idx:06d}.jpg"
cv2.imwrite(str(tmp_detect), frame)
detect_result = DeepFace.extract_faces(img_path=str(tmp_detect), detector_backend='opencv', enforce_detection=False)
for det in detect_result:
facial_area = det.get('facial_area', {})
if facial_area:
x, y, w, h = facial_area.get('x', 0), facial_area.get('y', 0), facial_area.get('w', 0), facial_area.get('h', 0)
# Validar que es un bbox real, no el frame completo
# Si el bbox es prácticamente el frame completo, descartarlo
is_full_frame = (x <= 5 and y <= 5 and w >= frame.shape[1] - 10 and h >= frame.shape[0] - 10)
# Bbox mínimo de 50x50 para filtrar falsos positivos pequeños
if w > 50 and h > 50 and not is_full_frame:
top, left, bottom, right = max(0, y), max(0, x), min(frame.shape[0], y+h), min(frame.shape[1], x+w)
boxes_haar.append((top, right, bottom, left))
tmp_detect.unlink(missing_ok=True)
except Exception as _e_detect:
print(f"[{job_id}] Frame {frame_idx}: DeepFace extract_faces error: {_e_detect}")
if boxes_haar:
frames_with_faces += 1
print(f"[{job_id}] Frame {frame_idx}: {len(boxes_haar)} cara(s) detectada(s) con Haar/DeepFace")
for (top, right, bottom, left) in boxes_haar:
crop = frame[top:bottom, left:right]
if crop.size == 0:
continue
fn = f"face_{frame_idx:06d}_{saved_count:03d}.jpg"
crop_path = faces_root / fn
cv2.imwrite(str(crop_path), crop)
reps = DeepFace.represent(img_path=str(crop_path), model_name="Facenet512", enforce_detection=False)
for r in (reps or []):
emb = r.get("embedding") if isinstance(r, dict) else r
if emb is None:
continue
emb = np.array(emb, dtype=float)
emb = emb / (np.linalg.norm(emb) + 1e-9)
embeddings.append(emb.astype(float).tolist())
crops_meta.append({
"file": fn,
"frame": frame_idx,
"box": [int(top), int(right), int(bottom), int(left)],
})
saved_count += 1
except Exception as _e_df:
print(f"[{job_id}] DeepFace fallback error: {_e_df}")
cap.release()
print(f"[{job_id}] ✓ Frames procesados: {frames_processed}/{len(frame_indices)}")
print(f"[{job_id}] ✓ Frames con caras: {frames_with_faces}")
print(f"[{job_id}] ✓ Caras detectadas (embeddings): {len(embeddings)}")
# Clustering jerárquico de caras
if embeddings:
Xf = np.array(embeddings)
labels = hierarchical_cluster_with_min_size(Xf, max_groups, min_cluster_size).tolist()
print(f"[{job_id}] Clustering jerárquico de caras: {len(set([l for l in labels if l >= 0]))} clusters")
else:
labels = []
# Construir carpetas por clúster y representative
characters = []
cluster_map: dict[int, list[int]] = {}
for i, lbl in enumerate(labels):
if isinstance(lbl, int) and lbl >= 0:
cluster_map.setdefault(lbl, []).append(i)
chars_dir = base / "characters"
chars_dir.mkdir(parents=True, exist_ok=True)
import shutil as _sh
for ci, idxs in sorted(cluster_map.items(), key=lambda x: x[0]):
char_id = f"char_{ci:02d}"
out_dir = chars_dir / char_id
out_dir.mkdir(parents=True, exist_ok=True)
files = []
for k, j in enumerate(idxs[:24]): # limitar a 24
fname = crops_meta[j]["file"]
src = faces_root / fname
dst = out_dir / fname
try:
_sh.copy2(src, dst)
files.append(fname)
except Exception:
pass
rep = files[0] if files else None
if rep:
rep_src = out_dir / rep
rep_dst = out_dir / "representative.jpg"
try:
_sh.copy2(rep_src, rep_dst)
except Exception:
pass
characters.append({
"id": char_id,
"name": f"Personatge {ci+1}",
"folder": str(out_dir),
"num_faces": len(files),
"image_url": f"/files/{video_name}/{char_id}/representative.jpg" if rep else "",
})
# Escribir analysis.json compatible con 'originales'
analysis = {
"caras": [{"embeddings": e} for e in embeddings],
"voices": [],
"escenas": [],
}
analysis_path = str(base / "analysis.json")
with open(analysis_path, "w", encoding="utf-8") as f:
json.dump(analysis, f, ensure_ascii=False)
face_labels = labels
num_face_embeddings = len(embeddings)
print(f"[{job_id}] Personajes detectados: {len(characters)}")
for char in characters:
print(f"[{job_id}] - {char['name']}: {char['num_faces']} caras")
# Enriquecer info de personajes con listado real de imágenes disponibles
try:
import glob, os
for ch in characters:
folder = ch.get("folder")
face_files = []
if folder and os.path.isdir(folder):
# soportar patrones face_* y extensiones jpg/png
patterns = ["face_*.jpg", "face_*.png"]
files = []
for pat in patterns:
files.extend(glob.glob(os.path.join(folder, pat)))
# si no hay face_*, tomar cualquier jpg/png para no dejar vacío
if not files:
files.extend(glob.glob(os.path.join(folder, "*.jpg")))
files.extend(glob.glob(os.path.join(folder, "*.png")))
# normalizar nombres de fichero relativos
face_files = sorted({os.path.basename(p) for p in files})
# Garantizar que representative.(jpg|png) esté el primero si existe
for rep_name in ("representative.jpg", "representative.png"):
rep_path = os.path.join(folder, rep_name)
if os.path.exists(rep_path):
if rep_name in face_files:
face_files.remove(rep_name)
face_files.insert(0, rep_name)
ch["face_files"] = face_files
# Ajustar num_faces si hay discrepancia
if face_files:
ch["num_faces"] = len(face_files)
except Exception as _e:
print(f"[{job_id}] WARN - No se pudo enumerar face_files: {_e}")
# Procesamiento de audio: diarización, ASR y embeddings de voz
try:
cfg = load_yaml("config.yaml")
audio_segments, srt_unmod, full_txt, diar_info, connection_logs = process_audio_for_video(video_path, base, cfg, voice_collection=None)
# Loggear en consola del engine los eventos de conexión
try:
for ev in (connection_logs or []):
msg = ev.get("message") if isinstance(ev, dict) else None
if msg:
print(f"[{job_id}] {msg}")
except Exception:
pass
except Exception as e_audio:
import traceback
print(f"[{job_id}] WARN - Audio pipeline failed: {e_audio}\n{traceback.format_exc()}")
audio_segments, srt_unmod, full_txt = [], None, ""
diar_info = {"diarization_ok": False, "error": str(e_audio)}
connection_logs = []
# Fallback: si no hay segmentos de audio, crear uno mínimo del audio completo
if not audio_segments:
try:
from pathlib import Path as _P
from pydub import AudioSegment as _AS
wav_out = extract_audio_ffmpeg(video_path, base / f"{_P(video_path).stem}.wav", sr=16000)
audio = _AS.from_wav(wav_out)
clips_dir = base / "clips"
clips_dir.mkdir(parents=True, exist_ok=True)
cp = clips_dir / "segment_000.wav"
audio.export(cp, format="wav")
emb_list = embed_voice_segments([str(cp)])
audio_segments = [{
"segment": 0,
"start": 0.0,
"end": float(len(audio) / 1000.0),
"speaker": "SPEAKER_00",
"text": "",
"voice_embedding": emb_list[0] if emb_list else [],
"clip_path": str(cp),
"lang": "ca",
"lang_prob": 1.0,
}]
except Exception as _efb:
print(f"[{job_id}] WARN - Audio minimal fallback failed: {_efb}")
# Clustering jerárquico de voces sobre embeddings válidos
import numpy as np
voice_embeddings = [seg.get("voice_embedding") for seg in audio_segments if seg.get("voice_embedding")]
if voice_embeddings:
try:
Xv = np.array(voice_embeddings)
v_labels = hierarchical_cluster_with_min_size(Xv, v_max_groups, v_min_cluster).tolist()
print(f"[{job_id}] Clustering jerárquico de voz: {len(set([l for l in v_labels if l >= 0]))} clusters")
except Exception as _e:
print(f"[{job_id}] WARN - Voice clustering failed: {_e}")
v_labels = []
else:
v_labels = []
# Guardar resultados primero y luego marcar como completado (evita carreras)
job["results"] = {
"characters": characters,
"num_characters": len(characters),
"analysis_path": analysis_path,
"base_dir": str(base),
"face_labels": face_labels,
"num_face_embeddings": num_face_embeddings,
"audio_segments": audio_segments,
"srt_unmodified": srt_unmod,
"full_transcription": full_txt,
"voice_labels": v_labels,
"num_voice_embeddings": len(voice_embeddings),
"diarization_info": diar_info,
}
job["status"] = JobStatus.DONE
print(f"[{job_id}] DEBUG - job['results'] guardado: {job['results']}")
except Exception as e_detect:
# Si falla la detección, intentar modo fallback
import traceback
print(f"[{job_id}] ✗ Error en detección: {e_detect}")
print(f"[{job_id}] Traceback: {traceback.format_exc()}")
print(f"[{job_id}] Usando modo fallback (carpetas vacías)")
# Crear carpetas básicas como fallback
for sub in ("sources", "faces", "voices", "backgrounds"):
(base / sub).mkdir(parents=True, exist_ok=True)
# Guardar resultados de fallback y luego marcar como completado
job["results"] = {
"characters": [],
"num_characters": 0,
"temp_dirs": {
"sources": str(base / "sources"),
"faces": str(base / "faces"),
"voices": str(base / "voices"),
"backgrounds": str(base / "backgrounds"),
},
"warning": f"Detección falló, usando modo fallback: {str(e_detect)}"
}
job["status"] = JobStatus.DONE
print(f"[{job_id}] ✓ Job completado exitosamente")
except Exception as e:
import traceback
print(f"[{job_id}] ✗ Error inesperado: {e}")
try:
job = jobs.get(job_id)
if job is not None:
job["status"] = JobStatus.FAILED
job["error"] = str(e)
except Exception:
pass
print(f"[{job_id}] Traceback: {traceback.format_exc()}")
@app.post("/generate_audiodescription")
async def generate_audiodescription(video: UploadFile = File(...)):
try:
import uuid
job_id = str(uuid.uuid4())
vid_name = video.filename or f"video_{job_id}.mp4"
base = TEMP_ROOT / Path(vid_name).stem
base.mkdir(parents=True, exist_ok=True)
# Save temp mp4
video_path = base / vid_name
with open(video_path, "wb") as f:
f.write(await video.read())
# Run MVP pipeline
result = ad_generate(str(video_path), base)
return {
"status": "done",
"results": {
"une_srt": result.get("une_srt", ""),
"free_text": result.get("free_text", ""),
"artifacts": result.get("artifacts", {}),
},
}
except Exception as e:
import traceback
print(f"/generate_audiodescription error: {e}\n{traceback.format_exc()}")
raise HTTPException(status_code=500, detail=str(e))
@app.post("/load_casting")
async def load_casting(
faces_dir: str = Form("identities/faces"),
voices_dir: str = Form("identities/voices"),
db_dir: str = Form("chroma_db"),
drop_collections: bool = Form(False),
):
client = ensure_chroma(Path(db_dir))
n_faces = build_faces_index(Path(faces_dir), client, collection_name="index_faces", drop=drop_collections)
n_voices = build_voices_index(Path(voices_dir), client, collection_name="index_voices", drop=drop_collections)
return {"ok": True, "faces": n_faces, "voices": n_voices}
@app.post("/finalize_casting")
async def finalize_casting(
payload: dict = Body(...),
):
"""
Consolidate selected face and voice clusters into identities directories and build indices.
Expected payload:
{
"video_name": str,
"base_dir": str, # engine temp base for this video
"characters": [
{"id": "char1", "name": "Nom", "folder": "/tmp/temp/<video>/char1", "kept_files": ["representative.jpg", ...], "description": "..."}, ...
],
"voice_clusters": [
{"label": 0, "name": "SPEAKER_00", "clips": ["segment_000.wav", ...]}, ...
]
}
"""
import os
import shutil
from pathlib import Path as _P
video_name = payload.get("video_name")
base_dir = payload.get("base_dir")
characters = payload.get("characters", []) or []
voice_clusters = payload.get("voice_clusters", []) or []
if not video_name or not base_dir:
raise HTTPException(status_code=400, detail="Missing video_name or base_dir")
faces_out = IDENTITIES_ROOT / video_name / "faces"
voices_out = IDENTITIES_ROOT / video_name / "voices"
faces_out.mkdir(parents=True, exist_ok=True)
voices_out.mkdir(parents=True, exist_ok=True)
# Consolidate faces per character name (merge same names)
for ch in characters:
ch_name = (ch.get("name") or "Unknown").strip() or "Unknown"
ch_folder = ch.get("folder")
kept = ch.get("kept_files") or []
if not ch_folder or not os.path.isdir(ch_folder):
continue
dst_dir = faces_out / ch_name
dst_dir.mkdir(parents=True, exist_ok=True)
for fname in kept:
src = _P(ch_folder) / fname
if src.exists() and src.is_file():
try:
shutil.copy2(src, dst_dir / fname)
except Exception:
pass
# Consolidate voices per cluster name
clips_dir = _P(base_dir) / "clips"
for vc in voice_clusters:
v_name = (vc.get("name") or f"SPEAKER_{int(vc.get('label',0)):02d}").strip()
dst_dir = voices_out / v_name
dst_dir.mkdir(parents=True, exist_ok=True)
for wav in (vc.get("clips") or []):
src = clips_dir / wav
if src.exists() and src.is_file():
try:
shutil.copy2(src, dst_dir / wav)
except Exception:
pass
# Build indices using casting_loader helpers
db_dir = IDENTITIES_ROOT / video_name / "chroma_db"
client = ensure_chroma(db_dir)
n_faces = build_faces_index(faces_out, client, collection_name="index_faces", deepface_model='Facenet512', drop=True)
n_voices = build_voices_index(voices_out, client, collection_name="index_voices", drop=True)
# Summary of identities
face_identities = sorted([p.name for p in faces_out.iterdir() if p.is_dir()]) if faces_out.exists() else []
voice_identities = sorted([p.name for p in voices_out.iterdir() if p.is_dir()]) if voices_out.exists() else []
return {
"ok": True,
"video_name": video_name,
"faces_dir": str(faces_out),
"voices_dir": str(voices_out),
"db_dir": str(db_dir),
"n_faces_embeddings": n_faces,
"n_voices_embeddings": n_voices,
"face_identities": face_identities,
"voice_identities": voice_identities,
}
@app.get("/files_scene/{video_name}/{scene_id}/{filename}")
def serve_scene_file(video_name: str, scene_id: str, filename: str):
file_path = TEMP_ROOT / video_name / "scenes" / scene_id / filename
if not file_path.exists():
raise HTTPException(status_code=404, detail="File not found")
return FileResponse(file_path)
@app.post("/detect_scenes")
async def detect_scenes(
video: UploadFile = File(...),
max_groups: int = Form(5),
min_cluster_size: int = Form(3),
frame_interval_sec: float = Form(0.5),
):
"""
Detecta clústers d'escenes mitjançant clustering jeràrquic d'histogrames de color.
Retorna una llista de scene_clusters estructurada de forma similar a characters.
"""
import cv2
import numpy as np
# Guardar el vídeo temporalment
video_name = Path(video.filename).stem
dst_video = VIDEOS_ROOT / f"{video_name}.mp4"
with dst_video.open("wb") as f:
shutil.copyfileobj(video.file, f)
cap = cv2.VideoCapture(str(dst_video))
if not cap.isOpened():
raise HTTPException(status_code=400, detail="Cannot open video")
fps = cap.get(cv2.CAP_PROP_FPS) or 25.0
step = max(1, int(frame_interval_sec * fps))
frames = []
metas = []
idx = 0
while True:
ret = cap.grab()
if not ret:
break
if idx % step == 0:
ret2, frame = cap.retrieve()
if not ret2:
break
# Reduir mida per estabilitat i càlcul ràpid
small = cv2.resize(frame, (160, 90))
hsv = cv2.cvtColor(small, cv2.COLOR_BGR2HSV)
# Histograma per canal
h_hist = cv2.calcHist([hsv],[0],None,[32],[0,180]).flatten()
s_hist = cv2.calcHist([hsv],[1],None,[32],[0,256]).flatten()
v_hist = cv2.calcHist([hsv],[2],None,[32],[0,256]).flatten()
hist = np.concatenate([h_hist, s_hist, v_hist])
hist = hist / (np.linalg.norm(hist) + 1e-8)
frames.append(hist)
metas.append({"index": idx, "time_sec": idx/float(fps)})
idx += 1
cap.release()
if not frames:
return {"scene_clusters": []}
X = np.array(frames)
labels = hierarchical_cluster_with_min_size(X, max_groups, min_cluster_size).tolist()
print(f"Scene clustering jeràrquic: {len(set([l for l in labels if l >= 0]))} clusters")
# Agrupar per etiqueta (>=0)
clusters = {}
for i, lbl in enumerate(labels):
if lbl is None or lbl < 0:
continue
clusters.setdefault(int(lbl), []).append(i)
# Escriure imatges representatives per a cada clúster
base = TEMP_ROOT / video_name / "scenes"
base.mkdir(parents=True, exist_ok=True)
scene_list = []
cap = cv2.VideoCapture(str(dst_video))
for lbl, idxs in sorted(clusters.items(), key=lambda x: x[0]):
scene_id = f"scene_{int(lbl):02d}"
out_dir = base / scene_id
out_dir.mkdir(parents=True, exist_ok=True)
frame_files = []
# Guardar fins a 12 frames per clúster
for k, fi in enumerate(idxs[:12]):
frame_num = metas[fi]["index"]
cap.set(cv2.CAP_PROP_POS_FRAMES, frame_num)
ret2, frame = cap.read()
if not ret2:
continue
fn = f"frame_{k:03d}.jpg"
cv2.imwrite(str(out_dir / fn), frame)
frame_files.append(fn)
# Representative
rep = frame_files[0] if frame_files else None
image_url = f"/files_scene/{video_name}/{scene_id}/{rep}" if rep else ""
scene_list.append({
"id": scene_id,
"folder": str(out_dir),
"num_frames": len(frame_files),
"image_url": image_url,
"frame_files": frame_files,
})
cap.release()
return {"scene_clusters": scene_list, "base_dir": str(base)}
@app.post("/refine_narration")
async def refine_narration(
dialogues_srt: str = Form(...),
frame_descriptions_json: str = Form("[]"),
config_path: str = Form("config.yaml"),
):
cfg = load_yaml(config_path)
frames = json.loads(frame_descriptions_json)
model_name = cfg.get("narration", {}).get("model", "salamandra-instruct")
use_remote = model_name in (cfg.get("models", {}).get("routing", {}).get("use_remote_for", []))
if use_remote:
router = LLMRouter(cfg)
system_msg = (
"Eres un sistema de audiodescripción que cumple UNE-153010. "
"Fusiona diálogos del SRT con descripciones concisas en los huecos, evitando redundancias. "
"Devuelve JSON con {narrative_text, srt_text}."
)
prompt = json.dumps({"dialogues_srt": dialogues_srt, "frames": frames, "rules": cfg.get("narration", {})}, ensure_ascii=False)
try:
txt = router.instruct(prompt=prompt, system=system_msg, model=model_name)
out = {}
try:
out = json.loads(txt)
except Exception:
out = {"narrative_text": txt, "srt_text": ""}
return {
"narrative_text": out.get("narrative_text", ""),
"srt_text": out.get("srt_text", ""),
"approved": True,
"critic_feedback": "",
}
except Exception:
ns = NarrationSystem(model_url=None, une_guidelines_path=cfg.get("narration", {}).get("narration_une_guidelines_path", "UNE_153010.txt"))
res = ns.run(dialogues_srt, frames)
return {"narrative_text": res.narrative_text, "srt_text": res.srt_text, "approved": res.approved, "critic_feedback": res.critic_feedback}
ns = NarrationSystem(model_url=None, une_guidelines_path=cfg.get("narration", {}).get("une_guidelines_path", "UNE_153010.txt"))
out = ns.run(dialogues_srt, frames)
return {"narrative_text": out.narrative_text, "srt_text": out.srt_text, "approved": out.approved, "critic_feedback": out.critic_feedback}
if __name__ == "__main__":
uvicorn.run(app, host="0.0.0.0", port=7860)