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2181 2182 2183 2184 2185 2186 2187 2188 2189 2190 2191 2192 2193 2194 2195 2196 2197 2198 2199 2200 2201 2202 2203 2204 2205 2206 2207 2208 2209 2210 2211 2212 2213 2214 2215 2216 2217 2218 2219 2220 2221 2222 2223 2224 2225 2226 2227 2228 2229 2230 2231 2232 2233 2234 2235 2236 2237 2238 2239 2240 2241 2242 2243 2244 2245 2246 2247 2248 2249 2250 2251 2252 2253 2254 2255 2256 2257 2258 2259 2260 2261 2262 2263 2264 2265 2266 2267 2268 2269 2270 | # CRITICAL: Clear CUDA_VISIBLE_DEVICES BEFORE any imports
# HF Spaces may set this to "0" dynamically, locking us to a single GPU
# import os
# if "CUDA_VISIBLE_DEVICES" in os.environ:
# del os.environ["CUDA_VISIBLE_DEVICES"]
import os
import collections
import logging
import time
from threading import Event, RLock, Thread
from queue import Queue, Full, Empty
from typing import Any, Dict, List, Optional, Sequence, Tuple
import cv2
import numpy as np
import torch
from concurrent.futures import ThreadPoolExecutor
from models.detectors.base import ObjectDetector
from models.model_loader import load_detector, load_detector_on_device
from models.segmenters.model_loader import load_segmenter, load_segmenter_on_device
from models.depth_estimators.model_loader import load_depth_estimator, load_depth_estimator_on_device
from utils.video import StreamingVideoWriter
from utils.relevance import evaluate_relevance
from utils.enrichment import run_enrichment
from utils.schemas import AssessmentStatus
from jobs.storage import set_track_data
import tempfile
import json as json_module
class AsyncVideoReader:
"""
Async video reader that decodes frames in a background thread.
This prevents GPU starvation on multi-GPU systems by prefetching frames
while the main thread is busy dispatching work to GPUs.
"""
def __init__(self, video_path: str, prefetch_size: int = 32):
"""
Initialize async video reader.
Args:
video_path: Path to video file
prefetch_size: Number of frames to prefetch (default 32)
"""
from queue import Queue
from threading import Thread
self.video_path = video_path
self.prefetch_size = prefetch_size
# Open video to get metadata
self._cap = cv2.VideoCapture(video_path)
if not self._cap.isOpened():
raise ValueError(f"Unable to open video: {video_path}")
self.fps = self._cap.get(cv2.CAP_PROP_FPS) or 30.0
self.width = int(self._cap.get(cv2.CAP_PROP_FRAME_WIDTH))
self.height = int(self._cap.get(cv2.CAP_PROP_FRAME_HEIGHT))
self.total_frames = int(self._cap.get(cv2.CAP_PROP_FRAME_COUNT))
# Prefetch queue
self._queue: Queue = Queue(maxsize=prefetch_size)
self._error: Exception = None
self._finished = False
# Start decoder thread
self._thread = Thread(target=self._decode_loop, daemon=True)
self._thread.start()
def _decode_loop(self):
"""Background thread that continuously decodes frames."""
try:
while True:
success, frame = self._cap.read()
if not success:
break
self._queue.put(frame) # Blocks when queue is full (backpressure)
except Exception as e:
self._error = e
logging.error(f"AsyncVideoReader decode error: {e}")
finally:
self._cap.release()
self._queue.put(None) # Sentinel to signal end
self._finished = True
def __iter__(self):
return self
def __next__(self) -> np.ndarray:
if self._error:
raise self._error
frame = self._queue.get()
if frame is None:
raise StopIteration
return frame
def close(self):
"""Stop the decoder thread and release resources."""
# Signal thread to stop by releasing cap (if not already done)
if self._cap.isOpened():
self._cap.release()
# Drain queue to unblock thread if it's waiting on put()
while not self._queue.empty():
try:
self._queue.get_nowait()
except:
break
def __enter__(self):
return self
def __exit__(self, exc_type, exc_val, exc_tb):
self.close()
def _check_cancellation(job_id: Optional[str]) -> None:
"""Check if job has been cancelled and raise exception if so."""
if job_id is None:
return
from jobs.storage import get_job_storage
from jobs.models import JobStatus
job = get_job_storage().get(job_id)
if job and job.status == JobStatus.CANCELLED:
raise RuntimeError("Job cancelled by user")
def _color_for_label(label: str) -> Tuple[int, int, int]:
# Deterministic BGR color from label text.
value = abs(hash(label)) % 0xFFFFFF
blue = value & 0xFF
green = (value >> 8) & 0xFF
red = (value >> 16) & 0xFF
return (blue, green, red)
def draw_boxes(
frame: np.ndarray,
boxes: np.ndarray,
labels: Optional[Sequence[int]] = None,
queries: Optional[Sequence[str]] = None,
label_names: Optional[Sequence[str]] = None,
) -> np.ndarray:
output = frame.copy()
if boxes is None:
return output
for idx, box in enumerate(boxes):
x1, y1, x2, y2 = [int(coord) for coord in box]
if label_names is not None and idx < len(label_names):
label = label_names[idx]
elif labels is not None and idx < len(labels) and queries is not None:
label_idx = int(labels[idx])
if 0 <= label_idx < len(queries):
label = queries[label_idx]
else:
label = f"label_{label_idx}"
else:
label = f"label_{idx}"
color = _color_for_label(label)
cv2.rectangle(output, (x1, y1), (x2, y2), color, thickness=2)
if label:
font = cv2.FONT_HERSHEY_SIMPLEX
font_scale = 1.0
thickness = 2
text_size, baseline = cv2.getTextSize(label, font, font_scale, thickness)
text_w, text_h = text_size
pad = 4
text_x = x1
text_y = max(y1 - 6, text_h + pad)
box_top_left = (text_x, text_y - text_h - pad)
box_bottom_right = (text_x + text_w + pad, text_y + baseline)
cv2.rectangle(output, box_top_left, box_bottom_right, color, thickness=-1)
cv2.putText(
output,
label,
(text_x + pad // 2, text_y - 2),
font,
font_scale,
(255, 255, 255),
thickness,
lineType=cv2.LINE_AA,
)
return output
def draw_masks(
frame: np.ndarray,
masks: np.ndarray,
alpha: float = 0.65,
labels: Optional[Sequence[str]] = None,
) -> np.ndarray:
output = frame.copy()
if masks is None or len(masks) == 0:
return output
for idx, mask in enumerate(masks):
if mask is None:
continue
if mask.ndim == 3:
mask = mask[0]
if mask.shape[:2] != output.shape[:2]:
mask = cv2.resize(mask, (output.shape[1], output.shape[0]), interpolation=cv2.INTER_NEAREST)
mask_bool = mask.astype(bool)
overlay = np.zeros_like(output, dtype=np.uint8)
label = None
if labels and idx < len(labels):
label = labels[idx]
# Use a fallback key for consistent color even when no label text
color_key = label if label else f"object_{idx}"
color = _color_for_label(color_key)
overlay[mask_bool] = color
output = cv2.addWeighted(output, 1.0, overlay, alpha, 0)
contours, _ = cv2.findContours(
mask_bool.astype(np.uint8), cv2.RETR_EXTERNAL, cv2.CHAIN_APPROX_SIMPLE
)
if contours:
cv2.drawContours(output, contours, -1, color, thickness=2)
# Only draw label text when explicit labels were provided
if label:
coords = np.column_stack(np.where(mask_bool))
if coords.size:
y, x = coords[0]
font = cv2.FONT_HERSHEY_SIMPLEX
font_scale = 1.0
thickness = 2
text_size, baseline = cv2.getTextSize(label, font, font_scale, thickness)
text_w, text_h = text_size
pad = 4
text_x = int(x)
text_y = max(int(y) - 6, text_h + pad)
box_top_left = (text_x, text_y - text_h - pad)
box_bottom_right = (text_x + text_w + pad, text_y + baseline)
cv2.rectangle(output, box_top_left, box_bottom_right, color, thickness=-1)
cv2.putText(
output,
label,
(text_x + pad // 2, text_y - 2),
font,
font_scale,
(255, 255, 255),
thickness,
lineType=cv2.LINE_AA,
)
return output
def _build_detection_records(
boxes: np.ndarray,
scores: Sequence[float],
labels: Sequence[int],
queries: Sequence[str],
label_names: Optional[Sequence[str]] = None,
) -> List[Dict[str, Any]]:
detections: List[Dict[str, Any]] = []
for idx, box in enumerate(boxes):
if label_names is not None and idx < len(label_names):
label = label_names[idx]
else:
label_idx = int(labels[idx]) if idx < len(labels) else -1
if 0 <= label_idx < len(queries):
label = queries[label_idx]
else:
label = f"label_{label_idx}"
detections.append(
{
"label": label,
"score": float(scores[idx]) if idx < len(scores) else 0.0,
"bbox": [int(coord) for coord in box.tolist()],
}
)
return detections
from utils.tracker import ByteTracker
class SpeedEstimator:
def __init__(self, fps: float = 30.0):
self.fps = fps
self.pixel_scale_map = {} # label -> pixels_per_meter (heuristic)
def estimate(self, detections: List[Dict[str, Any]]):
for det in detections:
history = det.get('history', [])
if len(history) < 5: continue
# Simple heuristic: Speed based on pixel movement
# We assume a base depth or size.
# Delta over last 5 frames
curr = history[-1]
prev = history[-5]
# Centroids
cx1 = (curr[0] + curr[2]) / 2
cy1 = (curr[1] + curr[3]) / 2
cx2 = (prev[0] + prev[2]) / 2
cy2 = (prev[1] + prev[3]) / 2
dist_px = np.sqrt((cx1-cx2)**2 + (cy1-cy2)**2)
# Heuristic scale: Assume car is ~4m long? Or just arbitrary pixel scale
# If we had GPT distance, we could calibrate.
# For now, let's use a dummy scale: 50px = 1m (very rough)
# Speed = (dist_px / 50) meters / (5 frames / 30 fps) seconds
# = (dist_px / 50) / (0.166) m/s
# = (dist_px * 0.12) m/s
# = * 3.6 km/h
scale = 50.0
dt = 5.0 / self.fps
speed_mps = (dist_px / scale) / dt
speed_kph = speed_mps * 3.6
# Smoothing
det['speed_kph'] = speed_kph
# Direction
dx = cx1 - cx2
dy = cy1 - cy2
angle = np.degrees(np.arctan2(dy, dx)) # 0 is right, 90 is down
# Map to clock direction (12 is up = -90 deg)
# -90 (up) -> 12
# 0 (right) -> 3
# 90 (down) -> 6
# 180 (left) -> 9
# Adjust so 12 is up (negative Y)
# angle -90 is 12
clock_hour = ((angle + 90) / 30 + 12) % 12
if clock_hour == 0: clock_hour = 12.0
det['direction_clock'] = f"{int(round(clock_hour))} o'clock"
det['angle_deg'] = angle # 0 is right, 90 is down (screen space)
class IncrementalDepthStats:
"""Thread-safe incremental depth range estimator.
Collects depth statistics frame-by-frame so the expensive pre-scan
(opening a second video reader) can be eliminated. Before
``warmup_frames`` updates the range defaults to (0.0, 1.0).
"""
def __init__(self, warmup_frames: int = 30):
self._lock = RLock()
self._warmup = warmup_frames
self._count = 0
self._global_min = float("inf")
self._global_max = float("-inf")
def update(self, depth_map: np.ndarray) -> None:
if depth_map is None or depth_map.size == 0:
return
finite = depth_map[np.isfinite(depth_map)]
if finite.size == 0:
return
lo = float(np.percentile(finite, 1))
hi = float(np.percentile(finite, 99))
with self._lock:
self._global_min = min(self._global_min, lo)
self._global_max = max(self._global_max, hi)
self._count += 1
@property
def range(self) -> Tuple[float, float]:
with self._lock:
if self._count < self._warmup:
# Not enough data yet — use default range
if self._count == 0:
return (0.0, 1.0)
# Use what we have but may be less stable
lo, hi = self._global_min, self._global_max
else:
lo, hi = self._global_min, self._global_max
if abs(hi - lo) < 1e-6:
hi = lo + 1.0
return (lo, hi)
_MODEL_LOCKS: Dict[str, RLock] = {}
_MODEL_LOCKS_GUARD = RLock()
_DEPTH_SCALE = float(os.getenv("DEPTH_SCALE", "25.0"))
def _get_model_lock(kind: str, name: str) -> RLock:
key = f"{kind}:{name}"
with _MODEL_LOCKS_GUARD:
lock = _MODEL_LOCKS.get(key)
if lock is None:
lock = RLock()
_MODEL_LOCKS[key] = lock
return lock
def _attach_depth_metrics(
frame: np.ndarray,
detections: List[Dict[str, Any]],
depth_estimator_name: Optional[str],
depth_scale: float, # No longer used for distance calculation
estimator_instance: Optional[Any] = None,
) -> None:
"""Attach relative depth values for visualization only. GPT handles distance estimation."""
if not detections or (not depth_estimator_name and not estimator_instance):
return
from models.depth_estimators.model_loader import load_depth_estimator
if estimator_instance:
estimator = estimator_instance
# Use instance lock if available, or create one
if hasattr(estimator, "lock"):
lock = estimator.lock
else:
# Fallback (shouldn't happen with our new setup but safe)
lock = _get_model_lock("depth", estimator.name)
else:
estimator = load_depth_estimator(depth_estimator_name)
lock = _get_model_lock("depth", estimator.name)
with lock:
depth_result = estimator.predict(frame)
depth_map = depth_result.depth_map
if depth_map is None or depth_map.size == 0:
return
height, width = depth_map.shape[:2]
raw_depths: List[Tuple[Dict[str, Any], float]] = []
for det in detections:
det["depth_rel"] = None # Relative depth for visualization only
bbox = det.get("bbox")
if not bbox or len(bbox) < 4:
continue
x1, y1, x2, y2 = [int(coord) for coord in bbox[:4]]
x1 = max(0, min(width - 1, x1))
y1 = max(0, min(height - 1, y1))
x2 = max(x1 + 1, min(width, x2))
y2 = max(y1 + 1, min(height, y2))
patch = depth_map[y1:y2, x1:x2]
if patch.size == 0:
continue
# Center crop (50%) to avoid background
h_p, w_p = patch.shape
cy, cx = h_p // 2, w_p // 2
dy, dx = h_p // 4, w_p // 4
center_patch = patch[cy - dy : cy + dy, cx - dx : cx + dx]
# Fallback to full patch if center is empty (unlikely)
if center_patch.size == 0:
center_patch = patch
finite = center_patch[np.isfinite(center_patch)]
if finite.size == 0:
continue
depth_raw = float(np.median(finite))
if depth_raw > 1e-6:
raw_depths.append((det, depth_raw))
if not raw_depths:
return
# Compute relative depth (0-1) for visualization only
all_raw = [d[1] for d in raw_depths]
min_raw, max_raw = min(all_raw), max(all_raw)
denom = max(max_raw - min_raw, 1e-6)
for det, depth_raw in raw_depths:
# Inverted: higher raw = closer = lower rel value (0=close, 1=far)
det["depth_rel"] = 1.0 - ((depth_raw - min_raw) / denom)
def infer_frame(
frame: np.ndarray,
queries: Sequence[str],
detector_name: Optional[str] = None,
depth_estimator_name: Optional[str] = None,
depth_scale: float = 1.0,
detector_instance: Optional[ObjectDetector] = None,
depth_estimator_instance: Optional[Any] = None,
) -> Tuple[np.ndarray, List[Dict[str, Any]]]:
if detector_instance:
detector = detector_instance
else:
detector = load_detector(detector_name)
text_queries = list(queries) or ["object"]
try:
if hasattr(detector, "lock"):
lock = detector.lock
else:
lock = _get_model_lock("detector", detector.name)
with lock:
result = detector.predict(frame, text_queries)
detections = _build_detection_records(
result.boxes, result.scores, result.labels, text_queries, result.label_names
)
if depth_estimator_name or depth_estimator_instance:
try:
_attach_depth_metrics(
frame, detections, depth_estimator_name, depth_scale, estimator_instance=depth_estimator_instance
)
except Exception:
logging.exception("Depth estimation failed for frame")
# Re-build display labels to include GPT distance if available
display_labels = []
for i, det in enumerate(detections):
label = det["label"]
if det.get("gpt_distance_m") is not None:
# Add GPT distance to label, e.g. "car 12m"
depth_str = f"{int(det['gpt_distance_m'])}m"
label = f"{label} {depth_str}"
logging.debug("Object '%s' at %s (bbox: %s)", label, depth_str, det['bbox'])
display_labels.append(label)
except Exception:
logging.exception("Inference failed for queries %s", text_queries)
raise
return draw_boxes(
frame,
result.boxes,
labels=None, # Use custom labels
queries=None,
label_names=display_labels,
), detections
def _build_display_label(det):
"""Build display label with GPT distance if available."""
label = det["label"]
if det.get("gpt_distance_m") is not None:
label = f"{label} {int(det['gpt_distance_m'])}m"
return label
def _attach_depth_from_result(detections, depth_result, depth_scale):
"""Attach relative depth values for visualization only. GPT handles distance estimation."""
depth_map = depth_result.depth_map
if depth_map is None or depth_map.size == 0: return
height, width = depth_map.shape[:2]
raw_depths = []
for det in detections:
det["depth_rel"] = None # Relative depth for visualization only
bbox = det.get("bbox")
if not bbox or len(bbox) < 4: continue
x1, y1, x2, y2 = [int(coord) for coord in bbox[:4]]
x1 = max(0, min(width - 1, x1))
y1 = max(0, min(height - 1, y1))
x2 = max(x1 + 1, min(width, x2))
y2 = max(y1 + 1, min(height, y2))
patch = depth_map[y1:y2, x1:x2]
if patch.size == 0: continue
h_p, w_p = patch.shape
cy, cx = h_p // 2, w_p // 2
dy, dx = h_p // 4, w_p // 4
center_patch = patch[cy - dy : cy + dy, cx - dx : cx + dx]
if center_patch.size == 0: center_patch = patch
finite = center_patch[np.isfinite(center_patch)]
if finite.size == 0: continue
depth_raw = float(np.median(finite))
if depth_raw > 1e-6:
raw_depths.append((det, depth_raw))
if not raw_depths: return
# Compute relative depth (0-1) for visualization only
all_raw = [d[1] for d in raw_depths]
min_raw, max_raw = min(all_raw), max(all_raw)
denom = max(max_raw - min_raw, 1e-6)
for det, depth_raw in raw_depths:
# Inverted: higher raw = closer = lower rel value (0=close, 1=far)
det["depth_rel"] = 1.0 - ((depth_raw - min_raw) / denom)
def infer_segmentation_frame(
frame: np.ndarray,
text_queries: Optional[List[str]] = None,
segmenter_name: Optional[str] = None,
segmenter_instance: Optional[Any] = None,
) -> Tuple[np.ndarray, Any]:
if segmenter_instance:
segmenter = segmenter_instance
# Use instance lock if available
if hasattr(segmenter, "lock"):
lock = segmenter.lock
else:
lock = _get_model_lock("segmenter", segmenter.name)
else:
segmenter = load_segmenter(segmenter_name)
lock = _get_model_lock("segmenter", segmenter.name)
with lock:
result = segmenter.predict(frame, text_prompts=text_queries)
labels = text_queries or []
if len(labels) == 1:
masks = result.masks if result.masks is not None else []
labels = [labels[0] for _ in range(len(masks))]
return draw_masks(frame, result.masks, labels=labels), result
def extract_first_frame(video_path: str) -> Tuple[np.ndarray, float, int, int]:
cap = cv2.VideoCapture(video_path)
if not cap.isOpened():
raise ValueError("Unable to open video.")
fps = cap.get(cv2.CAP_PROP_FPS) or 0.0
width = int(cap.get(cv2.CAP_PROP_FRAME_WIDTH))
height = int(cap.get(cv2.CAP_PROP_FRAME_HEIGHT))
success, frame = cap.read()
cap.release()
if not success or frame is None:
raise ValueError("Video decode produced zero frames.")
return frame, fps, width, height
def process_first_frame(
video_path: str,
queries: List[str],
mode: str,
detector_name: Optional[str] = None,
segmenter_name: Optional[str] = None,
) -> Tuple[np.ndarray, List[Dict[str, Any]]]:
"""Lightweight first-frame processing: detection + rendering only.
GPT, depth, and LLM relevance are handled later in the async pipeline
(writer enrichment thread), avoiding 2-8s synchronous startup delay.
Returns:
(processed_frame, detections) — all detections tagged UNASSESSED.
"""
frame, _, _, _ = extract_first_frame(video_path)
if mode == "segmentation":
processed, seg_result = infer_segmentation_frame(
frame, text_queries=queries, segmenter_name=segmenter_name
)
detections = []
if seg_result.boxes is not None and len(seg_result.boxes) > 0:
labels = seg_result.label_names or queries or []
for idx, box in enumerate(seg_result.boxes):
label = labels[idx] if idx < len(labels) else "object"
detections.append({
"label": label,
"bbox": [int(c) for c in box],
"score": float(seg_result.scores[idx]) if seg_result.scores is not None and idx < len(seg_result.scores) else 1.0,
"track_id": f"T{idx + 1:02d}",
"assessment_status": AssessmentStatus.UNASSESSED,
})
return processed, detections
processed, detections = infer_frame(
frame, queries, detector_name=detector_name
)
# Tag all detections as unassessed — GPT runs later in enrichment thread
for det in detections:
det["assessment_status"] = AssessmentStatus.UNASSESSED
return processed, detections
def run_inference(
input_video_path: str,
output_video_path: str,
queries: List[str],
max_frames: Optional[int] = None,
detector_name: Optional[str] = None,
job_id: Optional[str] = None,
depth_estimator_name: Optional[str] = None,
depth_scale: float = 1.0,
enable_gpt: bool = True,
stream_queue: Optional[Queue] = None,
mission_spec=None, # Optional[MissionSpecification]
first_frame_gpt_results: Optional[Dict[str, Any]] = None,
first_frame_detections: Optional[List[Dict[str, Any]]] = None,
) -> Tuple[str, List[List[Dict[str, Any]]]]:
# 1. Setup Video Reader
try:
reader = AsyncVideoReader(input_video_path)
except ValueError:
logging.exception("Failed to open video at %s", input_video_path)
raise
fps = reader.fps
width = reader.width
height = reader.height
total_frames = reader.total_frames
if max_frames is not None:
total_frames = min(total_frames, max_frames)
# 2. Defaults and Config
if not queries:
queries = ["person", "car", "truck", "motorcycle", "bicycle", "bus", "train", "airplane"]
logging.info("No queries provided, using defaults: %s", queries)
logging.info("Detection queries: %s", queries)
active_detector = detector_name or "yolo11"
# Parallel Model Loading
num_gpus = torch.cuda.device_count()
detectors = []
depth_estimators = []
if num_gpus > 0:
logging.info("Detected %d GPUs. Loading models in parallel...", num_gpus)
def load_models_on_gpu(gpu_id: int):
device_str = f"cuda:{gpu_id}"
try:
det = load_detector_on_device(active_detector, device_str)
det.lock = RLock()
depth = None
if depth_estimator_name:
depth = load_depth_estimator_on_device(depth_estimator_name, device_str)
depth.lock = RLock()
return (gpu_id, det, depth)
except Exception as e:
logging.error(f"Failed to load models on GPU {gpu_id}: {e}")
raise
with ThreadPoolExecutor(max_workers=num_gpus) as loader_pool:
futures = [loader_pool.submit(load_models_on_gpu, i) for i in range(num_gpus)]
results = [f.result() for f in futures]
# Sort by GPU ID to ensure consistent indexing
results.sort(key=lambda x: x[0])
for _, det, depth in results:
detectors.append(det)
depth_estimators.append(depth)
else:
logging.info("No GPUs detected. Loading CPU models...")
det = load_detector(active_detector)
det.lock = RLock()
detectors.append(det)
if depth_estimator_name:
depth = load_depth_estimator(depth_estimator_name)
depth.lock = RLock()
depth_estimators.append(depth)
else:
depth_estimators.append(None)
# 4. Incremental Depth Stats (replaces expensive pre-scan)
depth_stats = IncrementalDepthStats(warmup_frames=30) if depth_estimator_name else None
# queue_in: (frame_idx, frame_data)
# queue_out: (frame_idx, processed_frame, detections)
queue_in = Queue(maxsize=16)
# Tuning for A10: buffer at least 32 frames per GPU (batch size)
# GPT Latency Buffer: GPT takes ~3s. At 30fps, that's 90 frames. We need to absorb this burst.
queue_out_max = max(128, (len(detectors) if detectors else 1) * 32)
queue_out = Queue(maxsize=queue_out_max)
# 6. Worker Function (Unified)
# Robustness: Define flag early so workers can see it
writer_finished = False
def worker_task(gpu_idx: int):
logging.info(f"Worker {gpu_idx} started. PID: {os.getpid()}")
detector_instance = detectors[gpu_idx]
depth_instance = depth_estimators[gpu_idx] if gpu_idx < len(depth_estimators) else None # Handle mismatched lists safely
batch_size = detector_instance.max_batch_size if detector_instance.supports_batch else 1
batch_accum = [] # List[Tuple[idx, frame]]
def flush_batch():
if not batch_accum: return
logging.info(f"Worker {gpu_idx} flushing batch of {len(batch_accum)} frames")
indices = [item[0] for item in batch_accum]
frames = [item[1] for item in batch_accum]
# --- UNIFIED INFERENCE ---
# Separate frame 0 if we have cached detections (avoid re-detecting)
cached_frame0 = None
detect_indices = indices
detect_frames = frames
if first_frame_detections is not None and 0 in indices:
f0_pos = indices.index(0)
cached_frame0 = (indices[f0_pos], frames[f0_pos])
detect_indices = indices[:f0_pos] + indices[f0_pos+1:]
detect_frames = frames[:f0_pos] + frames[f0_pos+1:]
logging.info("Worker %d: reusing cached detections for frame 0", gpu_idx)
# Run detection batch (excluding frame 0 if cached)
det_results_map = {}
if detect_frames:
try:
if detector_instance.supports_batch:
with detector_instance.lock:
raw_results = detector_instance.predict_batch(detect_frames, queries)
else:
with detector_instance.lock:
raw_results = [detector_instance.predict(f, queries) for f in detect_frames]
for di, dr in zip(detect_indices, raw_results):
det_results_map[di] = dr
except BaseException as e:
logging.exception("Batch detection crashed with critical error")
for di in detect_indices:
det_results_map[di] = None
# Run depth batch (if enabled) — always for all frames
depth_results = [None] * len(frames)
if depth_instance and depth_estimator_name:
try:
with depth_instance.lock:
if depth_instance.supports_batch:
depth_results = depth_instance.predict_batch(frames)
else:
depth_results = [depth_instance.predict(f) for f in frames]
except BaseException as e:
logging.exception("Batch depth crashed with critical error")
# Update incremental depth stats
if depth_stats is not None:
for dep_res in depth_results:
if dep_res and dep_res.depth_map is not None:
depth_stats.update(dep_res.depth_map)
# --- POST PROCESSING ---
batch_det_summary = []
for i, (idx, frame, dep_res) in enumerate(zip(indices, frames, depth_results)):
# 1. Detections — use cached for frame 0 if available
detections = []
if cached_frame0 is not None and idx == 0:
detections = [d.copy() for d in first_frame_detections]
else:
d_res = det_results_map.get(idx)
if d_res:
detections = _build_detection_records(
d_res.boxes, d_res.scores, d_res.labels, queries, d_res.label_names
)
batch_det_summary.append((idx, len(detections)))
# 2. Frame Rendering
processed = frame.copy()
# A. Render Depth Heatmap (if enabled)
if dep_res and dep_res.depth_map is not None:
ds_min, ds_max = depth_stats.range if depth_stats else (0.0, 1.0)
processed = colorize_depth_map(dep_res.depth_map, ds_min, ds_max)
try:
_attach_depth_from_result(detections, dep_res, depth_scale)
except: pass
# 3. Output
while True:
try:
queue_out.put((idx, processed, detections), timeout=1.0)
break
except Full:
# Robustness: Check if writer is dead
if writer_finished:
raise RuntimeError("Writer thread died unexpectedly")
if job_id: _check_cancellation(job_id)
total_dets = sum(c for _, c in batch_det_summary)
if total_dets == 0 or indices[0] % 90 == 0:
logging.info("Worker %d batch [frames %s]: %d total detections %s",
gpu_idx,
f"{indices[0]}-{indices[-1]}",
total_dets,
[(idx, cnt) for idx, cnt in batch_det_summary if cnt > 0])
batch_accum.clear()
logging.info(f"Worker {gpu_idx} finished flushing batch")
while True:
try:
item = queue_in.get(timeout=2.0)
except Empty:
# Periodic check for cancellation if main thread is slow
if job_id: _check_cancellation(job_id)
continue
try:
if item is None:
logging.info(f"Worker {gpu_idx} received sentinel. Flushing and exiting.")
flush_batch()
break
frame_idx, frame_data = item
# logging.info(f"Worker {gpu_idx} got frame {frame_idx}") # Verbose
if frame_idx % 30 == 0:
logging.info("Processing frame %d on device %s", frame_idx, "cpu" if num_gpus==0 else f"cuda:{gpu_idx}")
batch_accum.append((frame_idx, frame_data))
if len(batch_accum) >= batch_size:
flush_batch()
except BaseException as e:
logging.exception(f"Worker {gpu_idx} CRASHED processing frame. Recovering...")
# Emit empty/failed frames for the batch to keep sequence alive
for idx, frm in batch_accum:
try:
# Fallback: Return original frame with empty detections
queue_out.put((idx, frm, []), timeout=5.0)
logging.info(f"Emitted fallback frame {idx}")
except:
pass
batch_accum.clear()
finally:
queue_in.task_done()
logging.info(f"Worker {gpu_idx} thread exiting normally.")
# 6. Start Workers
workers = []
num_workers = len(detectors)
# If using CPU, maybe use more threads? No, CPU models usually multithread internally.
# If using GPU, 1 thread per GPU is efficient.
for i in range(num_workers):
t = Thread(target=worker_task, args=(i,), daemon=True)
t.start()
workers.append(t)
# 7. Start Writer / Output Collection (Main Thread or separate)
# We will run writer logic in the main thread after feeding is done?
# No, we must write continuously.
all_detections_map = {}
# writer_finished initialized earlier
# writer_finished = False
# --- GPT Enrichment Thread (non-blocking) ---
# Runs LLM relevance + GPT threat assessment off the writer's critical path.
gpt_enrichment_queue = Queue(maxsize=4)
_relevance_refined = Event()
def enrichment_thread_fn(tracker_ref):
"""Dedicated thread for GPT/LLM calls. Receives work from writer, injects results via tracker."""
while True:
item = gpt_enrichment_queue.get()
if item is None:
break # Sentinel — shutdown
frame_idx, frame_data, gpt_dets, ms = item
try:
gpt_res = run_enrichment(
frame_idx, frame_data, gpt_dets, ms,
first_frame_gpt_results=first_frame_gpt_results,
job_id=job_id,
relevance_refined_event=_relevance_refined,
)
if gpt_res:
tracker_ref.inject_metadata(gpt_dets)
logging.info("Enrichment: GPT results injected into tracker for frame %d", frame_idx)
except Exception as e:
logging.error("Enrichment thread failed for frame %d: %s", frame_idx, e)
def writer_loop():
nonlocal writer_finished
next_idx = 0
buffer = {}
# Initialize Tracker & Speed Estimator
tracker = ByteTracker(frame_rate=fps)
speed_est = SpeedEstimator(fps=fps)
gpt_submitted = False # GPT enrichment submitted once for frame 0
# Start enrichment thread
enrich_thread = Thread(target=enrichment_thread_fn, args=(tracker,), daemon=True)
enrich_thread.start()
try:
with StreamingVideoWriter(output_video_path, fps, width, height) as writer:
while next_idx < total_frames:
# Fetch from queue
try:
while next_idx not in buffer:
# Backpressure: bound the reorder buffer to prevent memory blowup
if len(buffer) > 128:
logging.warning("Writer reorder buffer too large (%d items), applying backpressure (waiting for frame %d)...", len(buffer), next_idx)
time.sleep(0.05)
item = queue_out.get(timeout=1.0) # wait
idx, p_frame, dets = item
buffer[idx] = (p_frame, dets)
# Write next_idx
p_frame, dets = buffer.pop(next_idx)
# --- SEQUENTIAL TRACKING ---
# Run tracker FIRST so detections get real track_id from ByteTracker
pre_track_count = len(dets)
dets = tracker.update(dets)
if (next_idx % 30 == 0) or (pre_track_count > 0 and len(dets) == 0):
logging.info("Writer frame %d: %d detections in -> %d tracked out",
next_idx, pre_track_count, len(dets))
speed_est.estimate(dets)
# --- RELEVANCE GATE (deterministic, fast — stays in writer) ---
if mission_spec:
if (mission_spec.parse_mode == "LLM_EXTRACTED"
and not _relevance_refined.is_set()):
# LLM post-filter hasn't run yet — pass all through
for d in dets:
d["mission_relevant"] = True
d["relevance_reason"] = "pending_llm_postfilter"
gpt_dets = dets
else:
# Normal deterministic gate (with refined or FAST_PATH classes)
for d in dets:
decision = evaluate_relevance(d, mission_spec.relevance_criteria)
d["mission_relevant"] = decision.relevant
d["relevance_reason"] = decision.reason
if not decision.relevant:
logging.info(
json_module.dumps({
"event": "relevance_decision",
"track_id": d.get("track_id"),
"label": d.get("label"),
"relevant": False,
"reason": decision.reason,
"required_classes": mission_spec.relevance_criteria.required_classes,
"frame": next_idx,
})
)
gpt_dets = [d for d in dets if d.get("mission_relevant", True)]
else:
for d in dets:
d["mission_relevant"] = None
gpt_dets = dets
# --- GPT ENRICHMENT (non-blocking, offloaded to enrichment thread) ---
if enable_gpt and gpt_dets and not gpt_submitted:
# Tag as pending — enrichment thread will update to ASSESSED later
for d in gpt_dets:
d["assessment_status"] = AssessmentStatus.PENDING_GPT
try:
gpt_enrichment_queue.put(
(next_idx, p_frame.copy(), gpt_dets, mission_spec),
timeout=1.0,
)
gpt_submitted = True
logging.info("Writer: offloaded GPT enrichment for frame %d", next_idx)
except Full:
logging.warning("GPT enrichment queue full, skipping frame 0 GPT")
# Tag unassessed detections (INV-6)
for d in dets:
if "assessment_status" not in d:
d["assessment_status"] = AssessmentStatus.UNASSESSED
# --- RENDER BOXES & OVERLAYS ---
if dets:
display_boxes = np.array([d['bbox'] for d in dets])
display_labels = []
for d in dets:
if d.get("mission_relevant") is False:
display_labels.append("")
continue
lbl = d.get('label', 'obj')
display_labels.append(lbl)
p_frame = draw_boxes(p_frame, display_boxes, label_names=display_labels)
writer.write(p_frame)
if stream_queue:
try:
from jobs.streaming import publish_frame as _publish
if job_id:
_publish(job_id, p_frame)
else:
stream_queue.put(p_frame, timeout=0.01)
except:
pass
all_detections_map[next_idx] = dets
# Store tracks for frontend access
if job_id:
set_track_data(job_id, next_idx, dets)
next_idx += 1
if next_idx % 30 == 0:
logging.debug("Wrote frame %d/%d", next_idx, total_frames)
except Empty:
# Normal when waiting for out-of-order worker output.
if job_id:
_check_cancellation(job_id)
if not any(w.is_alive() for w in workers) and queue_out.empty():
logging.error(
"Workers stopped unexpectedly while waiting for frame %d.",
next_idx,
)
break
continue
except Exception:
logging.exception("Writer loop processing error at index %d", next_idx)
if job_id:
_check_cancellation(job_id)
if not any(w.is_alive() for w in workers) and queue_out.empty():
logging.error(
"Workers stopped unexpectedly while writer handled frame %d.",
next_idx,
)
break
continue
except Exception as e:
logging.exception("Writer loop failed")
finally:
logging.info("Writer loop finished. Wrote %d frames (target %d)", next_idx, total_frames)
# Shut down enrichment thread
try:
gpt_enrichment_queue.put(None, timeout=5.0)
enrich_thread.join(timeout=30)
except Exception:
logging.warning("Enrichment thread shutdown timed out")
writer_finished = True
writer_thread = Thread(target=writer_loop, daemon=True)
writer_thread.start()
# 8. Feed Frames (Main Thread)
# 8. Feed Frames (Main Thread)
try:
frames_fed = 0
reader_iter = iter(reader)
while True:
_check_cancellation(job_id)
if max_frames is not None and frames_fed >= max_frames:
break
try:
frame = next(reader_iter)
except StopIteration:
break
queue_in.put((frames_fed, frame)) # Blocks if full
frames_fed += 1
logging.info("Feeder finished. Fed %d frames (expected %d)", frames_fed, total_frames)
# Update total_frames to actual count so writer knows when to stop
if frames_fed != total_frames:
logging.info("Updating total_frames from %d to %d (actual fed)", total_frames, frames_fed)
total_frames = frames_fed
# Signal workers to stop
for _ in range(num_workers):
try:
queue_in.put(None, timeout=5.0) # Using timeout to prevent infinite block
except Full:
logging.warning("Failed to send stop signal to a worker (queue full)")
# Wait for queue to process
queue_in.join()
except Exception as e:
logging.exception("Feeding frames failed")
# Ensure we try to signal workers even on error
for _ in range(num_workers):
try:
queue_in.put_nowait(None)
except Full: pass
raise
finally:
reader.close()
# Wait for writer
writer_thread.join()
# Sort detections
sorted_detections = []
# If we crashed early, we return what we have
max_key = max(all_detections_map.keys()) if all_detections_map else -1
for i in range(max_key + 1):
sorted_detections.append(all_detections_map.get(i, []))
logging.info("Inference complete. Output: %s", output_video_path)
return output_video_path, sorted_detections
def _gsam2_render_frame(
frame_dir: str,
frame_names: List[str],
frame_idx: int,
frame_objects: Dict,
height: int,
width: int,
masks_only: bool = False,
frame_store=None,
) -> np.ndarray:
"""Render a single GSAM2 tracking frame (masks + boxes). CPU-only.
When *masks_only* is True, skip box rendering so the writer thread can
draw boxes later with enriched (GPT) labels.
"""
if frame_store is not None:
frame = frame_store.get_bgr(frame_idx).copy() # .copy() — render mutates
else:
frame_path = os.path.join(frame_dir, frame_names[frame_idx])
frame = cv2.imread(frame_path)
if frame is None:
return np.zeros((height, width, 3), dtype=np.uint8)
if not frame_objects:
return frame
masks_list: List[np.ndarray] = []
boxes_list: List[List[int]] = []
box_labels: List[str] = []
for _obj_id, obj_info in frame_objects.items():
mask = obj_info.mask
label = obj_info.class_name
if mask is not None:
if isinstance(mask, torch.Tensor):
mask_np = mask.cpu().numpy().astype(bool)
else:
mask_np = np.asarray(mask).astype(bool)
if mask_np.shape[:2] != (height, width):
mask_np = cv2.resize(
mask_np.astype(np.uint8),
(width, height),
interpolation=cv2.INTER_NEAREST,
).astype(bool)
masks_list.append(mask_np)
has_box = not (
obj_info.x1 == 0 and obj_info.y1 == 0
and obj_info.x2 == 0 and obj_info.y2 == 0
)
if has_box:
boxes_list.append([obj_info.x1, obj_info.y1, obj_info.x2, obj_info.y2])
box_labels.append(label)
if masks_list:
# Always pass labels=None here; label text is drawn by draw_boxes
# below to avoid duplicate label rendering.
frame = draw_masks(frame, np.stack(masks_list), labels=None)
if boxes_list and not masks_only:
frame = draw_boxes(frame, np.array(boxes_list), label_names=box_labels)
return frame
def run_grounded_sam2_tracking(
input_video_path: str,
output_video_path: str,
queries: List[str],
max_frames: Optional[int] = None,
segmenter_name: Optional[str] = None,
job_id: Optional[str] = None,
stream_queue: Optional[Queue] = None,
step: int = 20,
enable_gpt: bool = False,
mission_spec=None, # Optional[MissionSpecification]
first_frame_gpt_results: Optional[Dict[str, Any]] = None,
_perf_metrics: Optional[Dict[str, float]] = None,
_perf_lock=None,
num_maskmem: Optional[int] = None,
detector_name: Optional[str] = None,
_ttfs_t0: Optional[float] = None,
) -> str:
"""Run Grounded-SAM-2 video tracking pipeline.
Uses multi-GPU data parallelism when multiple GPUs are available.
Falls back to single-GPU ``process_video`` otherwise.
"""
import copy
import shutil
from contextlib import nullcontext
from PIL import Image as PILImage
from utils.video import extract_frames_to_jpeg_dir
from utils.frame_store import SharedFrameStore, MemoryBudgetExceeded
from models.segmenters.grounded_sam2 import MaskDictionary, ObjectInfo, LazyFrameObjects
active_segmenter = segmenter_name or "GSAM2-L"
def _ttfs(msg):
if _ttfs_t0 is not None:
logging.info("[TTFS:%s] +%.1fs %s", job_id, time.perf_counter() - _ttfs_t0, msg)
_ttfs("enter run_grounded_sam2_tracking")
logging.info(
"Grounded-SAM-2 tracking: segmenter=%s, queries=%s, step=%d",
active_segmenter, queries, step,
)
# 1. Load frames — prefer in-memory SharedFrameStore, fall back to JPEG dir
_use_frame_store = True
frame_store = None
_t_ext = time.perf_counter()
try:
frame_store = SharedFrameStore(input_video_path, max_frames=max_frames)
fps, width, height = frame_store.fps, frame_store.width, frame_store.height
total_frames = len(frame_store)
frame_names = [f"{i:06d}.jpg" for i in range(total_frames)]
# Write single dummy JPEG for init_state bootstrapping
dummy_frame_dir = tempfile.mkdtemp(prefix="gsam2_dummy_")
cv2.imwrite(os.path.join(dummy_frame_dir, "000000.jpg"), frame_store.get_bgr(0))
frame_dir = dummy_frame_dir
logging.info("SharedFrameStore: %d frames in memory (dummy dir: %s)", total_frames, frame_dir)
except MemoryBudgetExceeded:
logging.info("Memory budget exceeded, falling back to JPEG extraction")
_use_frame_store = False
frame_store = None
frame_dir = tempfile.mkdtemp(prefix="gsam2_frames_")
frame_names, fps, width, height = extract_frames_to_jpeg_dir(
input_video_path, frame_dir, max_frames=max_frames,
)
total_frames = len(frame_names)
try:
if _perf_metrics is not None:
_t_e2e = time.perf_counter()
if torch.cuda.is_available():
torch.cuda.reset_peak_memory_stats()
_perf_metrics["frame_extraction_ms"] = (time.perf_counter() - _t_ext) * 1000.0
_ttfs(f"frame_extraction done ({total_frames} frames, in_memory={_use_frame_store})")
logging.info("Loaded %d frames (in_memory=%s)", total_frames, _use_frame_store)
num_gpus = torch.cuda.device_count()
# ==================================================================
# Phase 5: Parallel rendering + sequential video writing
# (Hoisted above tracking so render pipeline starts before tracking
# completes — segments are fed incrementally via callback / queue.)
# ==================================================================
_check_cancellation(job_id)
render_in: Queue = Queue(maxsize=32)
render_out: Queue = Queue(maxsize=128)
render_done = False
num_render_workers = min(4, os.cpu_count() or 1)
def _render_worker():
while True:
item = render_in.get()
if item is None:
break
fidx, fobjs = item
try:
# Deferred GPU->CPU: materialize lazy objects in render thread
if isinstance(fobjs, LazyFrameObjects):
fobjs = fobjs.materialize()
if _perf_metrics is not None:
_t_r = time.perf_counter()
frm = _gsam2_render_frame(
frame_dir, frame_names, fidx, fobjs,
height, width,
masks_only=enable_gpt,
frame_store=frame_store,
)
if _perf_metrics is not None:
_r_ms = (time.perf_counter() - _t_r) * 1000.0
if _perf_lock:
with _perf_lock: _perf_metrics["render_total_ms"] += _r_ms
else:
_perf_metrics["render_total_ms"] += _r_ms
payload = (fidx, frm, fobjs) if enable_gpt else (fidx, frm, {})
while True:
try:
render_out.put(payload, timeout=1.0)
break
except Full:
if render_done:
return
except Exception:
logging.exception("Render failed for frame %d", fidx)
blank = np.zeros((height, width, 3), dtype=np.uint8)
try:
render_out.put((fidx, blank, {}), timeout=5.0)
except Full:
pass
r_workers = [
Thread(target=_render_worker, daemon=True)
for _ in range(num_render_workers)
]
for t in r_workers:
t.start()
# --- ObjectInfo → detection dict adapter ---
def _objectinfo_to_dets(frame_objects_dict):
dets = []
for obj_id, info in frame_objects_dict.items():
dets.append({
"label": info.class_name,
"bbox": [info.x1, info.y1, info.x2, info.y2],
"score": 1.0,
"track_id": f"T{obj_id:02d}",
"instance_id": obj_id,
})
return dets
# --- GPT enrichment thread (when enabled) ---
gpt_enrichment_queue: Queue = Queue(maxsize=4)
gpt_data_by_track: Dict[str, Dict] = {}
gpt_data_lock = RLock()
_relevance_refined = Event()
def _gsam2_enrichment_thread_fn():
while True:
item = gpt_enrichment_queue.get()
if item is None:
break
frame_idx, frame_data, gpt_dets, ms = item
try:
gpt_res = run_enrichment(
frame_idx, frame_data, gpt_dets, ms,
first_frame_gpt_results=first_frame_gpt_results,
job_id=job_id,
relevance_refined_event=_relevance_refined,
)
# GSAM2-specific: store results in per-track dict and persist to job storage
if gpt_res:
for d in gpt_dets:
tid = d.get("track_id")
if tid and tid in gpt_res:
merged = dict(gpt_res[tid])
merged["gpt_raw"] = gpt_res[tid]
merged["assessment_frame_index"] = frame_idx
merged["assessment_status"] = merged.get(
"assessment_status", AssessmentStatus.ASSESSED
)
with gpt_data_lock:
gpt_data_by_track[tid] = merged
logging.info("GSAM2 enrichment: GPT results stored for %d tracks", len(gpt_data_by_track))
# Persist GPT-enriched detections to job storage so
# frontend polling (/detect/status) picks them up.
if job_id:
try:
from jobs.storage import get_job_storage as _gjs
_st = _gjs().get(job_id)
if _st and _st.first_frame_detections:
for det in _st.first_frame_detections:
tid = det.get("track_id")
with gpt_data_lock:
payload = gpt_data_by_track.get(tid)
if payload:
det.update(payload)
# Also sync relevance from gpt_dets
src = next((d for d in gpt_dets if d.get("track_id") == tid), None)
if src:
if "mission_relevant" in src:
det["mission_relevant"] = src["mission_relevant"]
if "relevance_reason" in src:
det["relevance_reason"] = src["relevance_reason"]
from jobs.storage import get_job_storage as _gjs2
_gjs2().update(
job_id,
first_frame_detections=_st.first_frame_detections,
first_frame_gpt_results=gpt_res,
)
logging.info(
"GSAM2 enrichment: updated first_frame_detections in job storage for %s",
job_id,
)
except Exception:
logging.exception(
"GSAM2 enrichment: failed to update job storage for %s", job_id
)
except Exception as e:
logging.error("GSAM2 enrichment thread failed for frame %d: %s", frame_idx, e)
# Shared streaming state (publisher ↔ writer)
_stream_deque: collections.deque = collections.deque(maxlen=200)
_stream_lock = RLock()
_stream_writer_done = Event()
def _writer_loop():
nonlocal render_done
_first_deposit = False
next_idx = 0
buf: Dict[int, Tuple] = {}
# Per-track bbox history (replaces ByteTracker for GSAM2)
track_history: Dict[int, List] = {}
speed_est = SpeedEstimator(fps=fps) if enable_gpt else None
gpt_submitted = False
# Start enrichment thread when GPT enabled
enrich_thread = None
if enable_gpt:
enrich_thread = Thread(target=_gsam2_enrichment_thread_fn, daemon=True)
enrich_thread.start()
try:
with StreamingVideoWriter(
output_video_path, fps, width, height
) as writer:
# --- Write + stream (publisher handles pacing) ---
while next_idx < total_frames:
try:
while next_idx not in buf:
if len(buf) > 128:
logging.warning(
"Render reorder buffer large (%d), "
"waiting for frame %d",
len(buf), next_idx,
)
time.sleep(0.05)
idx, frm, fobjs = render_out.get(timeout=1.0)
buf[idx] = (frm, fobjs)
frm, fobjs = buf.pop(next_idx)
# --- GPT enrichment path ---
if enable_gpt and fobjs:
dets = _objectinfo_to_dets(fobjs)
# Maintain per-track bbox history (30-frame window)
for det in dets:
iid = det["instance_id"]
track_history.setdefault(iid, []).append(det["bbox"])
if len(track_history[iid]) > 30:
track_history[iid].pop(0)
# Store an immutable per-frame snapshot.
det["history"] = list(track_history[iid])
# Speed estimation
if speed_est:
speed_est.estimate(dets)
# Relevance gate
if mission_spec:
if (mission_spec.parse_mode == "LLM_EXTRACTED"
and not _relevance_refined.is_set()):
for d in dets:
d["mission_relevant"] = True
d["relevance_reason"] = "pending_llm_postfilter"
gpt_dets = dets
else:
for d in dets:
decision = evaluate_relevance(d, mission_spec.relevance_criteria)
d["mission_relevant"] = decision.relevant
d["relevance_reason"] = decision.reason
gpt_dets = [d for d in dets if d.get("mission_relevant", True)]
else:
for d in dets:
d["mission_relevant"] = None
gpt_dets = dets
# GPT enrichment (one-shot, first frame with detections)
if gpt_dets and not gpt_submitted:
for d in gpt_dets:
d["assessment_status"] = AssessmentStatus.PENDING_GPT
try:
gpt_enrichment_queue.put(
(
next_idx,
frm.copy(),
copy.deepcopy(gpt_dets),
mission_spec,
),
timeout=1.0,
)
gpt_submitted = True
logging.info("GSAM2 writer: offloaded GPT enrichment for frame %d", next_idx)
except Full:
logging.warning("GSAM2 GPT enrichment queue full, skipping")
# Merge persistent GPT data
for det in dets:
tid = det["track_id"]
with gpt_data_lock:
gpt_payload = gpt_data_by_track.get(tid)
if gpt_payload:
det.update(gpt_payload)
det["assessment_status"] = AssessmentStatus.ASSESSED
elif "assessment_status" not in det:
det["assessment_status"] = AssessmentStatus.UNASSESSED
# Build enriched display labels
display_labels = []
for d in dets:
if d.get("mission_relevant") is False:
display_labels.append("")
continue
lbl = d.get("label", "obj")
if d.get("gpt_distance_m") is not None:
try:
lbl = f"{lbl} {int(float(d['gpt_distance_m']))}m"
except (TypeError, ValueError):
pass
display_labels.append(lbl)
# Draw boxes on mask-rendered frame
if dets:
boxes = np.array([d["bbox"] for d in dets])
frm = draw_boxes(frm, boxes, label_names=display_labels)
# Store tracks for frontend
if job_id:
set_track_data(job_id, next_idx, copy.deepcopy(dets))
elif enable_gpt:
# No objects this frame — still store empty track data
if job_id:
set_track_data(job_id, next_idx, [])
if _perf_metrics is not None:
_t_w = time.perf_counter()
# Write to video file (always, single copy)
writer.write(frm)
if _perf_metrics is not None:
_perf_metrics["writer_total_ms"] += (time.perf_counter() - _t_w) * 1000.0
# --- Deposit frame for stream publisher ---
if stream_queue or job_id:
with _stream_lock:
_stream_deque.append(frm)
if not _first_deposit:
_first_deposit = True
_ttfs("first_frame_deposited_to_deque")
next_idx += 1
if next_idx % 30 == 0:
logging.info(
"Rendered frame %d / %d",
next_idx, total_frames,
)
except Empty:
if job_id:
_check_cancellation(job_id)
if not any(t.is_alive() for t in r_workers) and render_out.empty():
logging.error(
"Render workers stopped while waiting "
"for frame %d", next_idx,
)
break
continue
finally:
render_done = True
_stream_writer_done.set()
# Shut down enrichment thread
if enrich_thread:
try:
gpt_enrichment_queue.put(None, timeout=5.0)
enrich_thread.join(timeout=30)
except Exception:
logging.warning("GSAM2 enrichment thread shutdown timed out")
def _stream_publisher_thread():
"""Adaptive-rate publisher: reads from _stream_deque, publishes at measured pace."""
from jobs.streaming import publish_frame as _pub
STARTUP_WAIT = 5.0 # max seconds to accumulate before streaming
MIN_FPS = 2.0
MAX_FPS = 30.0
HEARTBEAT_INTERVAL = 0.5 # re-publish last frame if deque empty
LOW_WATER = 10
HIGH_WATER = 50
ADJUST_INTERVAL = 1.0
last_frame = None
published = 0
# --- Phase 1: startup accumulation ---
t_start = time.perf_counter()
while True:
elapsed = time.perf_counter() - t_start
if elapsed >= STARTUP_WAIT:
break
if _stream_writer_done.is_set():
break
time.sleep(0.1)
with _stream_lock:
accumulated = len(_stream_deque)
elapsed = max(time.perf_counter() - t_start, 0.1)
r_prod = accumulated / elapsed if accumulated > 0 else 10.0
r_stream = max(MIN_FPS, min(MAX_FPS, 0.85 * r_prod))
logging.info(
"Stream publisher started: R_prod=%.1f fps, R_stream=%.1f fps, "
"accumulated=%d frames in %.1fs",
r_prod, r_stream, accumulated, elapsed,
)
_ttfs(f"publisher: startup_wait done ({accumulated} frames in {elapsed:.1f}s)")
# --- Phase 2: adaptive streaming ---
last_adjust = time.perf_counter()
last_publish_time = 0.0
while True:
frame_interval = 1.0 / r_stream
# Try to pop a frame
frame = None
with _stream_lock:
if _stream_deque:
frame = _stream_deque.popleft()
if frame is not None:
last_frame = frame
if job_id:
_pub(job_id, frame)
elif stream_queue:
try:
stream_queue.put(frame, timeout=0.01)
except Exception:
pass
if published == 0:
_ttfs("first_publish_frame")
published += 1
last_publish_time = time.perf_counter()
time.sleep(frame_interval)
else:
# Deque empty — check termination
if _stream_writer_done.is_set():
with _stream_lock:
if not _stream_deque:
break
continue
# Heartbeat: re-publish last frame to keep MJPEG alive
now = time.perf_counter()
if last_frame is not None and (now - last_publish_time) >= HEARTBEAT_INTERVAL:
if job_id:
_pub(job_id, last_frame)
elif stream_queue:
try:
stream_queue.put(last_frame, timeout=0.01)
except Exception:
pass
last_publish_time = now
time.sleep(0.05)
# Adaptive rate adjustment (every ~1s)
now = time.perf_counter()
if now - last_adjust >= ADJUST_INTERVAL:
with _stream_lock:
level = len(_stream_deque)
if level < LOW_WATER:
r_stream = max(MIN_FPS, r_stream * 0.9)
elif level > HIGH_WATER:
r_stream = min(MAX_FPS, r_stream * 1.05)
last_adjust = now
# Publish final frame
if last_frame is not None:
if job_id:
_pub(job_id, last_frame)
elif stream_queue:
try:
stream_queue.put(last_frame, timeout=0.01)
except Exception:
pass
logging.info("Stream publisher finished: published %d frames", published)
writer_thread = Thread(target=_writer_loop, daemon=True)
writer_thread.start()
_publisher_thread = None
if stream_queue or job_id:
_publisher_thread = Thread(target=_stream_publisher_thread, daemon=True)
_publisher_thread.start()
_ttfs("writer+publisher threads started")
# ==================================================================
# Phase 1-4: Tracking (single-GPU fallback vs multi-GPU pipeline)
# Segments are fed incrementally to render_in as they complete.
# ==================================================================
try:
if num_gpus <= 1:
# ---------- Single-GPU fallback ----------
device_str = "cuda:0" if torch.cuda.is_available() else "cpu"
_seg_kw = {"num_maskmem": num_maskmem} if num_maskmem is not None else {}
if detector_name is not None:
_seg_kw["detector_name"] = detector_name
if _perf_metrics is not None:
_t_load = time.perf_counter()
segmenter = load_segmenter_on_device(active_segmenter, device_str, **_seg_kw)
_check_cancellation(job_id)
if _perf_metrics is not None:
_perf_metrics["model_load_ms"] = (time.perf_counter() - _t_load) * 1000.0
segmenter._perf_metrics = _perf_metrics
segmenter._perf_lock = None
_ttfs(f"model loaded ({active_segmenter})")
if _perf_metrics is not None:
_t_track = time.perf_counter()
def _feed_segment(seg_frames):
"""Fallback for empty/carry-forward segments (already CPU)."""
for fidx in sorted(seg_frames.keys()):
render_in.put((fidx, seg_frames[fidx]))
def _feed_segment_gpu(segment_output):
"""Feed LazyFrameObjects into render_in (GPU->CPU deferred)."""
# Deduplicate: frame_indices has one entry per (frame, obj)
seen = set()
for fi in segment_output.frame_indices:
if fi not in seen:
seen.add(fi)
render_in.put((fi, LazyFrameObjects(segment_output, fi)))
_ttfs("process_video started")
tracking_results = segmenter.process_video(
frame_dir, frame_names, queries,
on_segment=_feed_segment,
on_segment_output=_feed_segment_gpu,
_ttfs_t0=_ttfs_t0,
_ttfs_job_id=job_id,
frame_store=frame_store,
)
if _perf_metrics is not None:
_perf_metrics["tracking_total_ms"] = (time.perf_counter() - _t_track) * 1000.0
logging.info(
"Single-GPU tracking complete: %d frames",
len(tracking_results),
)
else:
# ---------- Multi-GPU pipeline ----------
logging.info(
"Multi-GPU GSAM2 tracking: %d GPUs, %d frames, step=%d",
num_gpus, total_frames, step,
)
# Phase 1: Load one segmenter per GPU (parallel)
if _perf_metrics is not None:
_t_load = time.perf_counter()
segmenters = []
with ThreadPoolExecutor(max_workers=num_gpus) as pool:
_seg_kw_multi = {"num_maskmem": num_maskmem} if num_maskmem is not None else {}
if detector_name is not None:
_seg_kw_multi["detector_name"] = detector_name
futs = [
pool.submit(
load_segmenter_on_device,
active_segmenter,
f"cuda:{i}",
**_seg_kw_multi,
)
for i in range(num_gpus)
]
segmenters = [f.result() for f in futs]
logging.info("Loaded %d segmenters", len(segmenters))
if _perf_metrics is not None:
_perf_metrics["model_load_ms"] = (time.perf_counter() - _t_load) * 1000.0
import threading as _th
_actual_lock = _perf_lock or _th.Lock()
for seg in segmenters:
seg._perf_metrics = _perf_metrics
seg._perf_lock = _actual_lock
_ttfs(f"model loaded ({active_segmenter}, {num_gpus} GPUs)")
# Phase 2: Init SAM2 models/state per GPU (parallel)
if _perf_metrics is not None:
_t_init = time.perf_counter()
if frame_store is not None:
# Models are lazy-loaded; ensure at least one is ready so we
# can read image_size. Phase 1 (load_segmenter_on_device)
# only constructs the object — _video_predictor is still None.
segmenters[0]._ensure_models_loaded()
sam2_img_size = segmenters[0]._video_predictor.image_size
# Pre-create the shared adapter (validates memory budget)
shared_adapter = frame_store.sam2_adapter(image_size=sam2_img_size)
_REQUIRED_KEYS = {"images", "num_frames", "video_height", "video_width", "cached_features"}
def _init_seg_state(seg):
seg._ensure_models_loaded()
state = seg._video_predictor.init_state(
video_path=frame_dir, # dummy dir with 1 JPEG
offload_video_to_cpu=True,
async_loading_frames=False, # 1 dummy frame, instant
)
# Validate expected keys exist before patching
missing = _REQUIRED_KEYS - set(state.keys())
if missing:
raise RuntimeError(f"SAM2 init_state missing expected keys: {missing}")
# CRITICAL: Clear cached_features BEFORE patching images
# init_state caches dummy frame 0's backbone features — must evict
state["cached_features"] = {}
# Patch in real frame data
state["images"] = shared_adapter
state["num_frames"] = total_frames
state["video_height"] = height
state["video_width"] = width
return state
else:
def _init_seg_state(seg):
seg._ensure_models_loaded()
return seg._video_predictor.init_state(
video_path=frame_dir,
offload_video_to_cpu=True,
async_loading_frames=True,
)
with ThreadPoolExecutor(max_workers=len(segmenters)) as pool:
futs = [pool.submit(_init_seg_state, seg) for seg in segmenters]
inference_states = [f.result() for f in futs]
if _perf_metrics is not None:
_perf_metrics["init_state_ms"] = (time.perf_counter() - _t_init) * 1000.0
_t_track = time.perf_counter()
_ttfs("multi-GPU tracking started")
# Phase 3: Parallel segment processing (queue-based workers)
segments = list(range(0, total_frames, step))
num_total_segments = len(segments)
seg_queue_in: Queue = Queue()
seg_queue_out: Queue = Queue()
for i, start_idx in enumerate(segments):
seg_queue_in.put((i, start_idx))
for _ in segmenters:
seg_queue_in.put(None) # sentinel
iou_thresh = segmenters[0].iou_threshold
def _segment_worker(gpu_idx: int):
seg = segmenters[gpu_idx]
state = inference_states[gpu_idx]
device_type = seg.device.split(":")[0]
ac = (
torch.autocast(device_type=device_type, dtype=torch.bfloat16)
if device_type == "cuda"
else nullcontext()
)
with ac:
while True:
if job_id:
try:
_check_cancellation(job_id)
except RuntimeError as e:
if "cancelled" in str(e).lower():
logging.info(
"Segment worker %d cancelled.",
gpu_idx,
)
break
raise
item = seg_queue_in.get()
if item is None:
break
seg_idx, start_idx = item
try:
logging.info(
"GPU %d processing segment %d (frame %d)",
gpu_idx, seg_idx, start_idx,
)
if frame_store is not None:
image = frame_store.get_pil_rgb(start_idx)
else:
img_path = os.path.join(
frame_dir, frame_names[start_idx]
)
with PILImage.open(img_path) as pil_img:
image = pil_img.convert("RGB")
if job_id:
_check_cancellation(job_id)
masks, boxes, labels = seg.detect_keyframe(
image, queries,
)
if masks is None:
seg_queue_out.put(
(seg_idx, start_idx, None, {})
)
continue
mask_dict = MaskDictionary()
mask_dict.add_new_frame_annotation(
mask_list=masks,
box_list=(
boxes.clone()
if torch.is_tensor(boxes)
else torch.tensor(boxes)
),
label_list=labels,
)
segment_output = seg.propagate_segment(
state, start_idx, mask_dict, step,
)
seg_queue_out.put(
(seg_idx, start_idx, mask_dict, segment_output)
)
except RuntimeError as e:
if "cancelled" in str(e).lower():
logging.info(
"Segment worker %d cancelled.",
gpu_idx,
)
break
raise
except Exception:
logging.exception(
"Segment %d failed on GPU %d",
seg_idx, gpu_idx,
)
seg_queue_out.put(
(seg_idx, start_idx, None, {})
)
seg_workers = []
for i in range(num_gpus):
t = Thread(
target=_segment_worker, args=(i,), daemon=True,
)
t.start()
seg_workers.append(t)
# Phase 4: Streaming reconciliation — process segments in order
# as they arrive, feeding render_in incrementally.
_recon_accum_ms = 0.0
global_id_counter = 0
sam2_masks = MaskDictionary()
tracking_results: Dict[int, Dict[int, ObjectInfo]] = {}
def _mask_to_cpu(mask):
"""Normalize mask to CPU tensor (still used for keyframe mask_dict)."""
if torch.is_tensor(mask):
return mask.detach().cpu()
return mask
next_seg_idx = 0
segment_buffer: Dict[int, Tuple] = {}
while next_seg_idx < num_total_segments:
try:
seg_idx, start_idx, mask_dict, segment_output = seg_queue_out.get(timeout=1.0)
except Empty:
if job_id:
_check_cancellation(job_id)
# Check if all segment workers are still alive
if not any(t.is_alive() for t in seg_workers) and seg_queue_out.empty():
logging.error(
"All segment workers stopped while waiting for segment %d",
next_seg_idx,
)
break
continue
segment_buffer[seg_idx] = (start_idx, mask_dict, segment_output)
# Process contiguous ready segments in order
while next_seg_idx in segment_buffer:
start_idx, mask_dict, segment_output = segment_buffer.pop(next_seg_idx)
if mask_dict is None or not mask_dict.labels:
# No detections — carry forward previous masks
for fi in range(
start_idx, min(start_idx + step, total_frames)
):
if fi not in tracking_results:
tracking_results[fi] = (
{
k: ObjectInfo(
instance_id=v.instance_id,
mask=v.mask,
class_name=v.class_name,
x1=v.x1, y1=v.y1,
x2=v.x2, y2=v.y2,
)
for k, v in sam2_masks.labels.items()
}
if sam2_masks.labels
else {}
)
render_in.put((fi, tracking_results.get(fi, {})))
if next_seg_idx == 0:
_ttfs("first_segment_reconciled (multi-GPU, no detections)")
next_seg_idx += 1
continue
# Normalize keyframe masks to CPU before cross-GPU IoU matching.
if _perf_metrics is not None:
_t_rc = time.perf_counter()
for info in mask_dict.labels.values():
info.mask = _mask_to_cpu(info.mask)
# IoU match + get local→global remapping
global_id_counter, remapping = (
mask_dict.update_masks_with_remapping(
tracking_dict=sam2_masks,
iou_threshold=iou_thresh,
objects_count=global_id_counter,
)
)
if not mask_dict.labels:
if _perf_metrics is not None:
_recon_accum_ms += (time.perf_counter() - _t_rc) * 1000.0
for fi in range(
start_idx, min(start_idx + step, total_frames)
):
tracking_results[fi] = {}
render_in.put((fi, {}))
if next_seg_idx == 0:
_ttfs("first_segment_reconciled (multi-GPU, empty masks)")
next_seg_idx += 1
continue
# Materialize ONLY the last frame for IoU tracking continuity
last_fi = segment_output.last_frame_idx()
if last_fi is not None:
last_objs = segment_output.frame_to_object_dict(
last_fi, remapping=remapping, to_cpu=True,
)
tracking_results[last_fi] = last_objs
sam2_masks = MaskDictionary()
sam2_masks.labels = copy.deepcopy(last_objs)
if last_objs:
first_info = next(iter(last_objs.values()))
if first_info.mask is not None:
m = first_info.mask
sam2_masks.mask_height = (
m.shape[-2] if m.ndim >= 2 else 0
)
sam2_masks.mask_width = (
m.shape[-1] if m.ndim >= 2 else 0
)
if _perf_metrics is not None:
_recon_accum_ms += (time.perf_counter() - _t_rc) * 1000.0
# Feed LazyFrameObjects to render — GPU->CPU deferred to render workers
seen_fi: set = set()
for fi in segment_output.frame_indices:
if fi not in seen_fi:
seen_fi.add(fi)
render_in.put((
fi,
LazyFrameObjects(segment_output, fi, remapping),
))
if next_seg_idx == 0:
_ttfs("first_segment_reconciled (multi-GPU)")
next_seg_idx += 1
for t in seg_workers:
t.join()
if _perf_metrics is not None:
_perf_metrics["id_reconciliation_ms"] = _recon_accum_ms
_perf_metrics["tracking_total_ms"] = (time.perf_counter() - _t_track) * 1000.0
logging.info(
"Multi-GPU reconciliation complete: %d frames, %d objects",
len(tracking_results), global_id_counter,
)
finally:
# Sentinels for render workers — always sent even on error/cancellation
for _ in r_workers:
try:
render_in.put(None, timeout=5.0)
except Full:
pass
for t in r_workers:
t.join()
writer_thread.join()
if _publisher_thread is not None:
_publisher_thread.join(timeout=15)
if _perf_metrics is not None:
_perf_metrics["end_to_end_ms"] = (time.perf_counter() - _t_e2e) * 1000.0
if torch.cuda.is_available():
_perf_metrics["gpu_peak_mem_mb"] = torch.cuda.max_memory_allocated() / (1024 * 1024)
logging.info("Grounded-SAM-2 output written to: %s", output_video_path)
return output_video_path
finally:
try:
shutil.rmtree(frame_dir)
logging.info("Cleaned up temp frame dir: %s", frame_dir)
except Exception:
logging.warning("Failed to clean up temp frame dir: %s", frame_dir)
def colorize_depth_map(
depth_map: np.ndarray,
global_min: float,
global_max: float,
) -> np.ndarray:
"""
Convert depth map to RGB visualization using TURBO colormap.
Args:
depth_map: HxW float32 depth in meters
global_min: Minimum depth across entire video (for stable normalization)
global_max: Maximum depth across entire video (for stable normalization)
Returns:
HxWx3 uint8 RGB image
"""
import cv2
depth_clean = np.copy(depth_map)
finite_mask = np.isfinite(depth_clean)
if not np.isfinite(global_min) or not np.isfinite(global_max):
if finite_mask.any():
local_depths = depth_clean[finite_mask].astype(np.float64, copy=False)
global_min = float(np.percentile(local_depths, 1))
global_max = float(np.percentile(local_depths, 99))
else:
global_min = 0.0
global_max = 1.0
# Replace NaN/inf with min value for visualization
depth_clean[~finite_mask] = global_min
if global_max - global_min < 1e-6: # Handle uniform depth
depth_norm = np.zeros_like(depth_clean, dtype=np.uint8)
else:
# Clip to global range to handle outliers
depth_clipped = np.clip(depth_clean, global_min, global_max)
depth_norm = ((depth_clipped - global_min) / (global_max - global_min) * 255).astype(np.uint8)
# Apply TURBO colormap for vibrant, perceptually uniform visualization
colored = cv2.applyColorMap(depth_norm, cv2.COLORMAP_TURBO)
return colored
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