blakeblackshear.frigate/frigate/object_processing.py

1392 lines
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Python
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import base64
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import datetime
import json
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import logging
import os
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import queue
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import threading
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from collections import Counter, defaultdict
from multiprocessing.synchronize import Event as MpEvent
from statistics import median
from typing import Callable
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import cv2
import numpy as np
from frigate.comms.detections_updater import DetectionPublisher, DetectionTypeEnum
from frigate.comms.dispatcher import Dispatcher
from frigate.comms.events_updater import EventEndSubscriber, EventUpdatePublisher
from frigate.comms.inter_process import InterProcessRequestor
from frigate.config import (
CameraConfig,
FrigateConfig,
MqttConfig,
RecordConfig,
SnapshotsConfig,
ZoomingModeEnum,
)
from frigate.const import ALL_ATTRIBUTE_LABELS, CLIPS_DIR, UPDATE_CAMERA_ACTIVITY
from frigate.events.types import EventStateEnum, EventTypeEnum
from frigate.ptz.autotrack import PtzAutoTrackerThread
from frigate.util.image import (
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SharedMemoryFrameManager,
area,
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calculate_region,
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draw_box_with_label,
draw_timestamp,
is_label_printable,
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)
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logger = logging.getLogger(__name__)
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def on_edge(box, frame_shape):
if (
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box[0] == 0
or box[1] == 0
or box[2] == frame_shape[1] - 1
or box[3] == frame_shape[0] - 1
):
return True
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def has_better_attr(current_thumb, new_obj, attr_label) -> bool:
max_new_attr = max(
[0]
+ [area(a["box"]) for a in new_obj["attributes"] if a["label"] == attr_label]
)
max_current_attr = max(
[0]
+ [
area(a["box"])
for a in current_thumb["attributes"]
if a["label"] == attr_label
]
)
# if the thumb has a higher scoring attr
return max_new_attr > max_current_attr
def is_better_thumbnail(label, current_thumb, new_obj, frame_shape) -> bool:
# larger is better
# cutoff images are less ideal, but they should also be smaller?
# better scores are obviously better too
# check face on person
if label == "person":
if has_better_attr(current_thumb, new_obj, "face"):
return True
# if the current thumb has a face attr, dont update unless it gets better
if any([a["label"] == "face" for a in current_thumb["attributes"]]):
return False
# check license_plate on car
if label == "car":
if has_better_attr(current_thumb, new_obj, "license_plate"):
return True
# if the current thumb has a license_plate attr, dont update unless it gets better
if any([a["label"] == "license_plate" for a in current_thumb["attributes"]]):
return False
# if the new_thumb is on an edge, and the current thumb is not
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if on_edge(new_obj["box"], frame_shape) and not on_edge(
current_thumb["box"], frame_shape
):
return False
# if the score is better by more than 5%
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if new_obj["score"] > current_thumb["score"] + 0.05:
return True
# if the area is 10% larger
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if new_obj["area"] > current_thumb["area"] * 1.1:
return True
return False
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class TrackedObject:
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def __init__(
self, camera, colormap, camera_config: CameraConfig, frame_cache, obj_data
):
# set the score history then remove as it is not part of object state
self.score_history = obj_data["score_history"]
del obj_data["score_history"]
self.obj_data = obj_data
self.camera = camera
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self.colormap = colormap
self.camera_config = camera_config
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self.frame_cache = frame_cache
self.zone_presence: dict[str, int] = {}
self.zone_loitering: dict[str, int] = {}
self.current_zones = []
self.entered_zones = []
self.attributes = defaultdict(float)
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self.false_positive = True
self.has_clip = False
self.has_snapshot = False
self.top_score = self.computed_score = 0.0
self.thumbnail_data = None
self.last_updated = 0
self.last_published = 0
self.frame = None
self.active = True
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self.previous = self.to_dict()
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def _is_false_positive(self):
# once a true positive, always a true positive
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if not self.false_positive:
return False
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threshold = self.camera_config.objects.filters[self.obj_data["label"]].threshold
return self.computed_score < threshold
def compute_score(self):
"""get median of scores for object."""
return median(self.score_history)
def update(self, current_frame_time: float, obj_data, has_valid_frame: bool):
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thumb_update = False
significant_change = False
autotracker_update = False
# if the object is not in the current frame, add a 0.0 to the score history
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if obj_data["frame_time"] != current_frame_time:
self.score_history.append(0.0)
else:
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self.score_history.append(obj_data["score"])
# only keep the last 10 scores
if len(self.score_history) > 10:
self.score_history = self.score_history[-10:]
# calculate if this is a false positive
self.computed_score = self.compute_score()
if self.computed_score > self.top_score:
self.top_score = self.computed_score
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self.false_positive = self._is_false_positive()
self.active = self.is_active()
if not self.false_positive and has_valid_frame:
# determine if this frame is a better thumbnail
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if self.thumbnail_data is None or is_better_thumbnail(
self.obj_data["label"],
self.thumbnail_data,
obj_data,
self.camera_config.frame_shape,
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):
self.thumbnail_data = {
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"frame_time": current_frame_time,
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"box": obj_data["box"],
"area": obj_data["area"],
"region": obj_data["region"],
"score": obj_data["score"],
"attributes": obj_data["attributes"],
}
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thumb_update = True
# check zones
current_zones = []
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bottom_center = (obj_data["centroid"][0], obj_data["box"][3])
# check each zone
for name, zone in self.camera_config.zones.items():
# if the zone is not for this object type, skip
if len(zone.objects) > 0 and obj_data["label"] not in zone.objects:
continue
contour = zone.contour
zone_score = self.zone_presence.get(name, 0) + 1
# check if the object is in the zone
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if cv2.pointPolygonTest(contour, bottom_center, False) >= 0:
# if the object passed the filters once, dont apply again
if name in self.current_zones or not zone_filtered(self, zone.filters):
# an object is only considered present in a zone if it has a zone inertia of 3+
if zone_score >= zone.inertia:
loitering_score = self.zone_loitering.get(name, 0) + 1
# loitering time is configured as seconds, convert to count of frames
if loitering_score >= (
self.camera_config.zones[name].loitering_time
* self.camera_config.detect.fps
):
current_zones.append(name)
if name not in self.entered_zones:
self.entered_zones.append(name)
else:
self.zone_loitering[name] = loitering_score
else:
self.zone_presence[name] = zone_score
else:
# once an object has a zone inertia of 3+ it is not checked anymore
if 0 < zone_score < zone.inertia:
self.zone_presence[name] = zone_score - 1
# maintain attributes
for attr in obj_data["attributes"]:
if self.attributes[attr["label"]] < attr["score"]:
self.attributes[attr["label"]] = attr["score"]
# populate the sub_label for car with highest scoring logo
if self.obj_data["label"] == "car":
recognized_logos = {
k: self.attributes[k]
for k in ["ups", "fedex", "amazon"]
if k in self.attributes
}
if len(recognized_logos) > 0:
max_logo = max(recognized_logos, key=recognized_logos.get)
self.obj_data["sub_label"] = (max_logo, recognized_logos[max_logo])
# check for significant change
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if not self.false_positive:
# if the zones changed, signal an update
if set(self.current_zones) != set(current_zones):
significant_change = True
# if the position changed, signal an update
if self.obj_data["position_changes"] != obj_data["position_changes"]:
significant_change = True
if self.obj_data["attributes"] != obj_data["attributes"]:
significant_change = True
# if the state changed between stationary and active
if self.previous["active"] != self.active:
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significant_change = True
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# update at least once per minute
if self.obj_data["frame_time"] - self.previous["frame_time"] > 60:
significant_change = True
# update autotrack at most 3 objects per second
if self.obj_data["frame_time"] - self.previous["frame_time"] >= (1 / 3):
autotracker_update = True
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self.obj_data.update(obj_data)
self.current_zones = current_zones
return (thumb_update, significant_change, autotracker_update)
def to_dict(self, include_thumbnail: bool = False):
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event = {
"id": self.obj_data["id"],
"camera": self.camera,
"frame_time": self.obj_data["frame_time"],
"snapshot": self.thumbnail_data,
"label": self.obj_data["label"],
"sub_label": self.obj_data.get("sub_label"),
"top_score": self.top_score,
"false_positive": self.false_positive,
"start_time": self.obj_data["start_time"],
"end_time": self.obj_data.get("end_time", None),
"score": self.obj_data["score"],
"box": self.obj_data["box"],
"area": self.obj_data["area"],
"ratio": self.obj_data["ratio"],
"region": self.obj_data["region"],
"active": self.active,
"stationary": not self.active,
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"motionless_count": self.obj_data["motionless_count"],
"position_changes": self.obj_data["position_changes"],
"current_zones": self.current_zones.copy(),
"entered_zones": self.entered_zones.copy(),
"has_clip": self.has_clip,
"has_snapshot": self.has_snapshot,
"attributes": self.attributes,
"current_attributes": self.obj_data["attributes"],
}
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if include_thumbnail:
event["thumbnail"] = base64.b64encode(self.get_thumbnail()).decode("utf-8")
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return event
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def is_active(self):
return not self.is_stationary()
def is_stationary(self):
return (
self.obj_data["motionless_count"]
> self.camera_config.detect.stationary.threshold
)
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def get_thumbnail(self):
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if (
self.thumbnail_data is None
or self.thumbnail_data["frame_time"] not in self.frame_cache
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):
ret, jpg = cv2.imencode(".jpg", np.zeros((175, 175, 3), np.uint8))
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jpg_bytes = self.get_jpg_bytes(
timestamp=False, bounding_box=False, crop=True, height=175
)
if jpg_bytes:
return jpg_bytes
else:
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ret, jpg = cv2.imencode(".jpg", np.zeros((175, 175, 3), np.uint8))
return jpg.tobytes()
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def get_clean_png(self):
if self.thumbnail_data is None:
return None
try:
best_frame = cv2.cvtColor(
self.frame_cache[self.thumbnail_data["frame_time"]],
cv2.COLOR_YUV2BGR_I420,
)
except KeyError:
logger.warning(
f"Unable to create clean png because frame {self.thumbnail_data['frame_time']} is not in the cache"
)
return None
ret, png = cv2.imencode(".png", best_frame)
if ret:
return png.tobytes()
else:
return None
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def get_jpg_bytes(
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self, timestamp=False, bounding_box=False, crop=False, height=None, quality=70
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):
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if self.thumbnail_data is None:
return None
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try:
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best_frame = cv2.cvtColor(
self.frame_cache[self.thumbnail_data["frame_time"]],
cv2.COLOR_YUV2BGR_I420,
)
except KeyError:
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logger.warning(
f"Unable to create jpg because frame {self.thumbnail_data['frame_time']} is not in the cache"
)
return None
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if bounding_box:
thickness = 2
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color = self.colormap[self.obj_data["label"]]
# draw the bounding boxes on the frame
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box = self.thumbnail_data["box"]
draw_box_with_label(
best_frame,
box[0],
box[1],
box[2],
box[3],
self.obj_data["label"],
f"{int(self.thumbnail_data['score']*100)}% {int(self.thumbnail_data['area'])}",
thickness=thickness,
color=color,
)
# draw any attributes
for attribute in self.thumbnail_data["attributes"]:
box = attribute["box"]
draw_box_with_label(
best_frame,
box[0],
box[1],
box[2],
box[3],
attribute["label"],
f"{attribute['score']:.0%}",
thickness=thickness,
color=color,
)
if crop:
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box = self.thumbnail_data["box"]
box_size = 300
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region = calculate_region(
best_frame.shape,
box[0],
box[1],
box[2],
box[3],
box_size,
multiplier=1.1,
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)
best_frame = best_frame[region[1] : region[3], region[0] : region[2]]
if height:
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width = int(height * best_frame.shape[1] / best_frame.shape[0])
best_frame = cv2.resize(
best_frame, dsize=(width, height), interpolation=cv2.INTER_AREA
)
if timestamp:
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color = self.camera_config.timestamp_style.color
draw_timestamp(
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best_frame,
self.thumbnail_data["frame_time"],
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self.camera_config.timestamp_style.format,
font_effect=self.camera_config.timestamp_style.effect,
font_thickness=self.camera_config.timestamp_style.thickness,
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font_color=(color.blue, color.green, color.red),
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position=self.camera_config.timestamp_style.position,
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)
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ret, jpg = cv2.imencode(
".jpg", best_frame, [int(cv2.IMWRITE_JPEG_QUALITY), quality]
)
if ret:
return jpg.tobytes()
else:
return None
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def zone_filtered(obj: TrackedObject, object_config):
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object_name = obj.obj_data["label"]
if object_name in object_config:
obj_settings = object_config[object_name]
# if the min area is larger than the
# detected object, don't add it to detected objects
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if obj_settings.min_area > obj.obj_data["area"]:
return True
# if the detected object is larger than the
# max area, don't add it to detected objects
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if obj_settings.max_area < obj.obj_data["area"]:
return True
# if the score is lower than the threshold, skip
if obj_settings.threshold > obj.computed_score:
return True
# if the object is not proportionally wide enough
if obj_settings.min_ratio > obj.obj_data["ratio"]:
return True
# if the object is proportionally too wide
if obj_settings.max_ratio < obj.obj_data["ratio"]:
return True
return False
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# Maintains the state of a camera
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class CameraState:
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def __init__(
self,
name,
config: FrigateConfig,
frame_manager: SharedMemoryFrameManager,
ptz_autotracker_thread: PtzAutoTrackerThread,
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):
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self.name = name
self.config = config
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self.camera_config = config.cameras[name]
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self.frame_manager = frame_manager
self.best_objects: dict[str, TrackedObject] = {}
self.object_counts = defaultdict(int)
self.active_object_counts = defaultdict(int)
self.tracked_objects: dict[str, TrackedObject] = {}
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self.frame_cache = {}
self.zone_objects = defaultdict(list)
self._current_frame = np.zeros(self.camera_config.frame_shape_yuv, np.uint8)
self.current_frame_lock = threading.Lock()
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self.current_frame_time = 0.0
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self.motion_boxes = []
self.regions = []
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self.previous_frame_id = None
self.callbacks = defaultdict(list)
self.ptz_autotracker_thread = ptz_autotracker_thread
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def get_current_frame(self, draw_options={}):
with self.current_frame_lock:
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frame_copy = np.copy(self._current_frame)
frame_time = self.current_frame_time
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tracked_objects = {k: v.to_dict() for k, v in self.tracked_objects.items()}
motion_boxes = self.motion_boxes.copy()
regions = self.regions.copy()
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frame_copy = cv2.cvtColor(frame_copy, cv2.COLOR_YUV2BGR_I420)
# draw on the frame
if draw_options.get("mask"):
mask_overlay = np.where(self.camera_config.motion.mask == [0])
frame_copy[mask_overlay] = [0, 0, 0]
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if draw_options.get("bounding_boxes"):
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# draw the bounding boxes on the frame
for obj in tracked_objects.values():
if obj["frame_time"] == frame_time:
if obj["stationary"]:
color = (220, 220, 220)
thickness = 1
else:
thickness = 2
color = self.config.model.colormap[obj["label"]]
else:
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thickness = 1
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color = (255, 0, 0)
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# draw thicker box around ptz autotracked object
if (
self.camera_config.onvif.autotracking.enabled
Autotracking bugfixes and zooming updates (#8103) * zoom in/out in search for lost objects * predicted box should not be empty * clean up and update zoom logic * only zoom if enabled * more cleanup * check for valid velocity when zooming * only try absolute zoom in if obj area has changed * zoom logic * don't enqueue lost object zoom if already at limit * don't disable motion boxes during ptz moves * velocity threshold based on move coefficients * fix area zoom logic * disable debug zoom * don't process objects if ptz moving * recalc with exponent * change exponent * remove lost object zooming * increase distance threshold for stationary object * increase distance threshold constant * only zoom out if nonzero * camera name in all debug logging * add camera name to debug logging * camera variable name consistency * update calibration behavior and docs * docs and better zooming * more sensible target values * docs wording * fix velocity threshold variable * zooming tweaks and remove iou for current objects * debug and docs * get valid velocity * include zero * additional debug statements * add zoom hysteresis * zoom on initial move if relative * only update target box if we actually zoom * merge dev * use getattr instead of get * increase distance threshold * reverse logic * get_camera_status after preset move to store zoom * final tweaks and docs * use constants and catch possible debug exception * adjust zoom factor exponent * don't run motion estimation when calling preset * adjust dimension threshold * use numpy for velocity estimate calcs * more numpy conversion * fix numpy shapes * numpy zeros dimension * more zoom out conditions * fix velocity bug * ensure init has been called in debug view * ensure onvif init if enabling by mqtt * change default hysteresis values * recalc relative zoom value * zoom out value * try to zoom when object isn't moving * try zoom when tracked object is not moving * don't try to zoom every time * negate zoom out condition when needed * hysteresis constants for absolute zooming * update zoom conditions * don't recalc target box on zoom only * zoom out if above area threshold * don't print zooming debug for stationary obj * revamp zooming to use area moving average * zooming tweaks and expose property * limit zoom with max target box * use calibration to determine zoom levels * zoom logic fix * docs * add tapo c200 camera * fix initial absolute zoom * small zoom logic fix * better invalid velocity checks * fix test * really fix test this time
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and self.ptz_autotracker_thread.ptz_autotracker.autotracker_init[
self.name
]
and self.ptz_autotracker_thread.ptz_autotracker.tracked_object[
self.name
]
is not None
and obj["id"]
== self.ptz_autotracker_thread.ptz_autotracker.tracked_object[
self.name
].obj_data["id"]
Autotracking bugfixes and zooming updates (#8103) * zoom in/out in search for lost objects * predicted box should not be empty * clean up and update zoom logic * only zoom if enabled * more cleanup * check for valid velocity when zooming * only try absolute zoom in if obj area has changed * zoom logic * don't enqueue lost object zoom if already at limit * don't disable motion boxes during ptz moves * velocity threshold based on move coefficients * fix area zoom logic * disable debug zoom * don't process objects if ptz moving * recalc with exponent * change exponent * remove lost object zooming * increase distance threshold for stationary object * increase distance threshold constant * only zoom out if nonzero * camera name in all debug logging * add camera name to debug logging * camera variable name consistency * update calibration behavior and docs * docs and better zooming * more sensible target values * docs wording * fix velocity threshold variable * zooming tweaks and remove iou for current objects * debug and docs * get valid velocity * include zero * additional debug statements * add zoom hysteresis * zoom on initial move if relative * only update target box if we actually zoom * merge dev * use getattr instead of get * increase distance threshold * reverse logic * get_camera_status after preset move to store zoom * final tweaks and docs * use constants and catch possible debug exception * adjust zoom factor exponent * don't run motion estimation when calling preset * adjust dimension threshold * use numpy for velocity estimate calcs * more numpy conversion * fix numpy shapes * numpy zeros dimension * more zoom out conditions * fix velocity bug * ensure init has been called in debug view * ensure onvif init if enabling by mqtt * change default hysteresis values * recalc relative zoom value * zoom out value * try to zoom when object isn't moving * try zoom when tracked object is not moving * don't try to zoom every time * negate zoom out condition when needed * hysteresis constants for absolute zooming * update zoom conditions * don't recalc target box on zoom only * zoom out if above area threshold * don't print zooming debug for stationary obj * revamp zooming to use area moving average * zooming tweaks and expose property * limit zoom with max target box * use calibration to determine zoom levels * zoom logic fix * docs * add tapo c200 camera * fix initial absolute zoom * small zoom logic fix * better invalid velocity checks * fix test * really fix test this time
2023-10-22 18:59:13 +02:00
and obj["frame_time"] == frame_time
):
thickness = 5
color = self.config.model.colormap[obj["label"]]
# debug autotracking zooming - show the zoom factor box
if (
self.camera_config.onvif.autotracking.zooming
!= ZoomingModeEnum.disabled
):
max_target_box = self.ptz_autotracker_thread.ptz_autotracker.tracked_object_metrics[
self.name
]["max_target_box"]
side_length = max_target_box * (
max(
self.camera_config.detect.width,
self.camera_config.detect.height,
)
)
centroid_x = (obj["box"][0] + obj["box"][2]) // 2
centroid_y = (obj["box"][1] + obj["box"][3]) // 2
top_left = (
int(centroid_x - side_length // 2),
int(centroid_y - side_length // 2),
)
bottom_right = (
int(centroid_x + side_length // 2),
int(centroid_y + side_length // 2),
)
cv2.rectangle(
frame_copy,
top_left,
bottom_right,
(255, 255, 0),
2,
)
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# draw the bounding boxes on the frame
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box = obj["box"]
text = (
obj["label"]
if (
not obj.get("sub_label")
or not is_label_printable(obj["sub_label"][0])
)
else obj["sub_label"][0]
)
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draw_box_with_label(
frame_copy,
box[0],
box[1],
box[2],
box[3],
text,
f"{obj['score']:.0%} {int(obj['area'])}",
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thickness=thickness,
color=color,
)
# draw any attributes
for attribute in obj["current_attributes"]:
box = attribute["box"]
draw_box_with_label(
frame_copy,
box[0],
box[1],
box[2],
box[3],
attribute["label"],
f"{attribute['score']:.0%}",
thickness=thickness,
color=color,
)
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if draw_options.get("regions"):
for region in regions:
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cv2.rectangle(
frame_copy,
(region[0], region[1]),
(region[2], region[3]),
(0, 255, 0),
2,
)
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if draw_options.get("zones"):
for name, zone in self.camera_config.zones.items():
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thickness = (
8
if any(
name in obj["current_zones"] for obj in tracked_objects.values()
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)
else 2
)
cv2.drawContours(frame_copy, [zone.contour], -1, zone.color, thickness)
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if draw_options.get("motion_boxes"):
for m_box in motion_boxes:
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cv2.rectangle(
frame_copy,
(m_box[0], m_box[1]),
(m_box[2], m_box[3]),
(0, 0, 255),
2,
)
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if draw_options.get("timestamp"):
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color = self.camera_config.timestamp_style.color
draw_timestamp(
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frame_copy,
frame_time,
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self.camera_config.timestamp_style.format,
font_effect=self.camera_config.timestamp_style.effect,
font_thickness=self.camera_config.timestamp_style.thickness,
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font_color=(color.blue, color.green, color.red),
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position=self.camera_config.timestamp_style.position,
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)
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return frame_copy
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def finished(self, obj_id):
del self.tracked_objects[obj_id]
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def on(self, event_type: str, callback: Callable[[dict], None]):
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self.callbacks[event_type].append(callback)
def update(self, frame_time, current_detections, motion_boxes, regions):
# get the new frame
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frame_id = f"{self.name}{frame_time}"
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current_frame = self.frame_manager.get(
frame_id, self.camera_config.frame_shape_yuv
)
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if current_frame is None:
logger.debug(f"Failed to get frame {frame_id} from SHM")
tracked_objects = self.tracked_objects.copy()
current_ids = set(current_detections.keys())
previous_ids = set(tracked_objects.keys())
removed_ids = previous_ids.difference(current_ids)
new_ids = current_ids.difference(previous_ids)
updated_ids = current_ids.intersection(previous_ids)
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for id in new_ids:
new_obj = tracked_objects[id] = TrackedObject(
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self.name,
self.config.model.colormap,
self.camera_config,
self.frame_cache,
current_detections[id],
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)
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# call event handlers
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for c in self.callbacks["start"]:
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c(self.name, new_obj, frame_time)
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for id in updated_ids:
updated_obj = tracked_objects[id]
thumb_update, significant_update, autotracker_update = updated_obj.update(
frame_time, current_detections[id], current_frame is not None
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)
if autotracker_update or significant_update:
for c in self.callbacks["autotrack"]:
c(self.name, updated_obj, frame_time)
if thumb_update and current_frame is not None:
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# ensure this frame is stored in the cache
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if (
updated_obj.thumbnail_data["frame_time"] == frame_time
and frame_time not in self.frame_cache
):
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self.frame_cache[frame_time] = np.copy(current_frame)
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updated_obj.last_updated = frame_time
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# if it has been more than 5 seconds since the last thumb update
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# and the last update is greater than the last publish or
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# the object has changed significantly
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if (
frame_time - updated_obj.last_published > 5
and updated_obj.last_updated > updated_obj.last_published
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) or significant_update:
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# call event handlers
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for c in self.callbacks["update"]:
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c(self.name, updated_obj, frame_time)
updated_obj.last_published = frame_time
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for id in removed_ids:
# publish events to mqtt
removed_obj = tracked_objects[id]
if "end_time" not in removed_obj.obj_data:
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removed_obj.obj_data["end_time"] = frame_time
for c in self.callbacks["end"]:
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c(self.name, removed_obj, frame_time)
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# TODO: can i switch to looking this up and only changing when an event ends?
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# maintain best objects
camera_activity: dict[str, list[any]] = {
"motion": len(motion_boxes) > 0,
"objects": [],
}
for obj in tracked_objects.values():
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object_type = obj.obj_data["label"]
active = obj.is_active()
if not obj.false_positive:
label = object_type
sub_label = None
if obj.obj_data.get("sub_label"):
if obj.obj_data.get("sub_label")[0] in ALL_ATTRIBUTE_LABELS:
label = obj.obj_data["sub_label"][0]
else:
label = f"{object_type}-verified"
sub_label = obj.obj_data["sub_label"][0]
camera_activity["objects"].append(
{
"id": obj.obj_data["id"],
"label": label,
"stationary": not active,
"area": obj.obj_data["area"],
"ratio": obj.obj_data["ratio"],
"score": obj.obj_data["score"],
"sub_label": sub_label,
}
)
# if we don't have access to the current frame or
# if the object's thumbnail is not from the current frame, skip
if (
current_frame is None
or obj.false_positive
or obj.thumbnail_data["frame_time"] != frame_time
):
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continue
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if object_type in self.best_objects:
current_best = self.best_objects[object_type]
now = datetime.datetime.now().timestamp()
# if the object is a higher score than the current best score
# or the current object is older than desired, use the new object
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if (
is_better_thumbnail(
object_type,
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current_best.thumbnail_data,
obj.thumbnail_data,
self.camera_config.frame_shape,
)
or (now - current_best.thumbnail_data["frame_time"])
> self.camera_config.best_image_timeout
):
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self.best_objects[object_type] = obj
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for c in self.callbacks["snapshot"]:
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c(self.name, self.best_objects[object_type], frame_time)
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else:
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self.best_objects[object_type] = obj
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for c in self.callbacks["snapshot"]:
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c(self.name, self.best_objects[object_type], frame_time)
for c in self.callbacks["camera_activity"]:
c(self.name, camera_activity)
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# update overall camera state for each object type
obj_counter = Counter(
obj.obj_data["label"]
for obj in tracked_objects.values()
if not obj.false_positive
)
active_obj_counter = Counter(
obj.obj_data["label"]
for obj in tracked_objects.values()
if not obj.false_positive and obj.active
)
# keep track of all labels detected for this camera
total_label_count = 0
total_active_label_count = 0
# report on all detected objects
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for obj_name, count in obj_counter.items():
total_label_count += count
if count != self.object_counts[obj_name]:
self.object_counts[obj_name] = count
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for c in self.callbacks["object_status"]:
c(self.name, obj_name, count)
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# update the active count on all detected objects
# To ensure we emit 0's if all objects are stationary, we need to loop
# over the set of all objects, not just active ones.
for obj_name in set(obj_counter):
count = active_obj_counter[obj_name]
total_active_label_count += count
if count != self.active_object_counts[obj_name]:
self.active_object_counts[obj_name] = count
for c in self.callbacks["active_object_status"]:
c(self.name, obj_name, count)
# publish for all labels detected for this camera
if total_label_count != self.object_counts.get("all"):
self.object_counts["all"] = total_label_count
for c in self.callbacks["object_status"]:
c(self.name, "all", total_label_count)
# publish active label counts for this camera
if total_active_label_count != self.active_object_counts.get("all"):
self.active_object_counts["all"] = total_active_label_count
for c in self.callbacks["active_object_status"]:
c(self.name, "all", total_active_label_count)
# expire any objects that are >0 and no longer detected
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expired_objects = [
obj_name
for obj_name, count in self.object_counts.items()
if count > 0 and obj_name not in obj_counter
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]
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for obj_name in expired_objects:
# Ignore the artificial all label
if obj_name == "all":
continue
self.object_counts[obj_name] = 0
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for c in self.callbacks["object_status"]:
c(self.name, obj_name, 0)
# Only publish if the object was previously active.
if self.active_object_counts[obj_name] > 0:
for c in self.callbacks["active_object_status"]:
c(self.name, obj_name, 0)
self.active_object_counts[obj_name] = 0
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for c in self.callbacks["snapshot"]:
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c(self.name, self.best_objects[obj_name], frame_time)
# cleanup thumbnail frame cache
current_thumb_frames = {
obj.thumbnail_data["frame_time"]
for obj in tracked_objects.values()
if not obj.false_positive
}
current_best_frames = {
obj.thumbnail_data["frame_time"] for obj in self.best_objects.values()
}
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thumb_frames_to_delete = [
t
for t in self.frame_cache.keys()
if t not in current_thumb_frames and t not in current_best_frames
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]
for t in thumb_frames_to_delete:
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del self.frame_cache[t]
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with self.current_frame_lock:
self.tracked_objects = tracked_objects
self.motion_boxes = motion_boxes
self.regions = regions
if current_frame is not None:
self.current_frame_time = frame_time
self._current_frame = current_frame
if self.previous_frame_id is not None:
self.frame_manager.close(self.previous_frame_id)
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self.previous_frame_id = frame_id
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2020-02-16 04:07:54 +01:00
class TrackedObjectProcessor(threading.Thread):
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def __init__(
self,
config: FrigateConfig,
dispatcher: Dispatcher,
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tracked_objects_queue,
ptz_autotracker_thread,
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stop_event,
):
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threading.Thread.__init__(self)
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self.name = "detected_frames_processor"
self.config = config
self.dispatcher = dispatcher
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self.tracked_objects_queue = tracked_objects_queue
self.stop_event: MpEvent = stop_event
self.camera_states: dict[str, CameraState] = {}
self.frame_manager = SharedMemoryFrameManager()
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self.last_motion_detected: dict[str, float] = {}
self.ptz_autotracker_thread = ptz_autotracker_thread
self.requestor = InterProcessRequestor()
self.detection_publisher = DetectionPublisher(DetectionTypeEnum.video)
self.event_sender = EventUpdatePublisher()
self.event_end_subscriber = EventEndSubscriber()
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self.camera_activity: dict[str, dict[str, any]] = {}
# {
# 'zone_name': {
# 'person': {
# 'camera_1': 2,
# 'camera_2': 1
# }
# }
# }
self.zone_data = defaultdict(lambda: defaultdict(dict))
self.active_zone_data = defaultdict(lambda: defaultdict(dict))
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def start(camera, obj: TrackedObject, current_frame_time):
self.event_sender.publish(
(
EventTypeEnum.tracked_object,
EventStateEnum.start,
camera,
obj.to_dict(),
)
)
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def update(camera, obj: TrackedObject, current_frame_time):
obj.has_snapshot = self.should_save_snapshot(camera, obj)
obj.has_clip = self.should_retain_recording(camera, obj)
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after = obj.to_dict()
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message = {
"before": obj.previous,
"after": after,
"type": "new" if obj.previous["false_positive"] else "update",
}
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self.dispatcher.publish("events", json.dumps(message), retain=False)
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obj.previous = after
self.event_sender.publish(
(
EventTypeEnum.tracked_object,
EventStateEnum.update,
camera,
obj.to_dict(include_thumbnail=True),
)
)
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def autotrack(camera, obj: TrackedObject, current_frame_time):
self.ptz_autotracker_thread.ptz_autotracker.autotrack_object(camera, obj)
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def end(camera, obj: TrackedObject, current_frame_time):
# populate has_snapshot
obj.has_snapshot = self.should_save_snapshot(camera, obj)
obj.has_clip = self.should_retain_recording(camera, obj)
# write the snapshot to disk
if obj.has_snapshot:
snapshot_config: SnapshotsConfig = self.config.cameras[camera].snapshots
jpg_bytes = obj.get_jpg_bytes(
timestamp=snapshot_config.timestamp,
bounding_box=snapshot_config.bounding_box,
crop=snapshot_config.crop,
height=snapshot_config.height,
quality=snapshot_config.quality,
)
if jpg_bytes is None:
logger.warning(f"Unable to save snapshot for {obj.obj_data['id']}.")
else:
with open(
os.path.join(CLIPS_DIR, f"{camera}-{obj.obj_data['id']}.jpg"),
"wb",
) as j:
j.write(jpg_bytes)
# write clean snapshot if enabled
if snapshot_config.clean_copy:
png_bytes = obj.get_clean_png()
if png_bytes is None:
logger.warning(
f"Unable to save clean snapshot for {obj.obj_data['id']}."
)
else:
with open(
os.path.join(
CLIPS_DIR,
f"{camera}-{obj.obj_data['id']}-clean.png",
),
"wb",
) as p:
p.write(png_bytes)
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if not obj.false_positive:
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message = {
"before": obj.previous,
"after": obj.to_dict(),
"type": "end",
}
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self.dispatcher.publish("events", json.dumps(message), retain=False)
self.ptz_autotracker_thread.ptz_autotracker.end_object(camera, obj)
self.event_sender.publish(
(
EventTypeEnum.tracked_object,
EventStateEnum.end,
camera,
obj.to_dict(include_thumbnail=True),
)
)
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def snapshot(camera, obj: TrackedObject, current_frame_time):
mqtt_config: MqttConfig = self.config.cameras[camera].mqtt
if mqtt_config.enabled and self.should_mqtt_snapshot(camera, obj):
jpg_bytes = obj.get_jpg_bytes(
timestamp=mqtt_config.timestamp,
bounding_box=mqtt_config.bounding_box,
crop=mqtt_config.crop,
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height=mqtt_config.height,
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quality=mqtt_config.quality,
)
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if jpg_bytes is None:
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logger.warning(
f"Unable to send mqtt snapshot for {obj.obj_data['id']}."
)
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else:
self.dispatcher.publish(
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f"{camera}/{obj.obj_data['label']}/snapshot",
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jpg_bytes,
retain=True,
)
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def object_status(camera, object_name, status):
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self.dispatcher.publish(f"{camera}/{object_name}", status, retain=False)
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def active_object_status(camera, object_name, status):
self.dispatcher.publish(
f"{camera}/{object_name}/active", status, retain=False
)
def camera_activity(camera, activity):
last_activity = self.camera_activity.get(camera)
if not last_activity or activity != last_activity:
self.camera_activity[camera] = activity
self.requestor.send_data(UPDATE_CAMERA_ACTIVITY, self.camera_activity)
for camera in self.config.cameras.keys():
camera_state = CameraState(
camera, self.config, self.frame_manager, self.ptz_autotracker_thread
)
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camera_state.on("start", start)
camera_state.on("autotrack", autotrack)
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camera_state.on("update", update)
camera_state.on("end", end)
camera_state.on("snapshot", snapshot)
camera_state.on("object_status", object_status)
camera_state.on("active_object_status", active_object_status)
camera_state.on("camera_activity", camera_activity)
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self.camera_states[camera] = camera_state
def should_save_snapshot(self, camera, obj: TrackedObject):
if obj.false_positive:
return False
snapshot_config: SnapshotsConfig = self.config.cameras[camera].snapshots
if not snapshot_config.enabled:
return False
# object never changed position
if obj.obj_data["position_changes"] == 0:
return False
# if there are required zones and there is no overlap
required_zones = snapshot_config.required_zones
if len(required_zones) > 0 and not set(obj.entered_zones) & set(required_zones):
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logger.debug(
f"Not creating snapshot for {obj.obj_data['id']} because it did not enter required zones"
)
return False
return True
def should_retain_recording(self, camera: str, obj: TrackedObject):
if obj.false_positive:
return False
record_config: RecordConfig = self.config.cameras[camera].record
# Recording is disabled
if not record_config.enabled:
return False
# object never changed position
if obj.obj_data["position_changes"] == 0:
return False
# If the object is not considered an alert or detection
review_config = self.config.cameras[camera].review
if not (
(
obj.obj_data["label"] in review_config.alerts.labels
and (
not review_config.alerts.required_zones
or set(obj.entered_zones) & set(review_config.alerts.required_zones)
)
)
or (
not review_config.detections.labels
or obj.obj_data["label"] in review_config.detections.labels
)
and (
not review_config.detections.required_zones
or set(obj.entered_zones) & set(review_config.alerts.required_zones)
)
):
logger.debug(
f"Not creating clip for {obj.obj_data['id']} because it did not qualify as an alert or detection"
)
return False
return True
def should_mqtt_snapshot(self, camera, obj: TrackedObject):
# object never changed position
if obj.obj_data["position_changes"] == 0:
return False
# if there are required zones and there is no overlap
required_zones = self.config.cameras[camera].mqtt.required_zones
if len(required_zones) > 0 and not set(obj.entered_zones) & set(required_zones):
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logger.debug(
f"Not sending mqtt for {obj.obj_data['id']} because it did not enter required zones"
)
return False
return True
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def update_mqtt_motion(self, camera, frame_time, motion_boxes):
# publish if motion is currently being detected
if motion_boxes:
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# only send ON if motion isn't already active
if self.last_motion_detected.get(camera, 0) == 0:
self.dispatcher.publish(
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f"{camera}/motion",
"ON",
retain=False,
)
# always updated latest motion
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self.last_motion_detected[camera] = frame_time
elif self.last_motion_detected.get(camera, 0) > 0:
mqtt_delay = self.config.cameras[camera].motion.mqtt_off_delay
# If no motion, make sure the off_delay has passed
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if frame_time - self.last_motion_detected.get(camera, 0) >= mqtt_delay:
self.dispatcher.publish(
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f"{camera}/motion",
"OFF",
retain=False,
)
# reset the last_motion so redundant `off` commands aren't sent
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self.last_motion_detected[camera] = 0
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def get_best(self, camera, label):
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# TODO: need a lock here
camera_state = self.camera_states[camera]
if label in camera_state.best_objects:
best_obj = camera_state.best_objects[label]
best = best_obj.thumbnail_data.copy()
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best["frame"] = camera_state.frame_cache.get(
best_obj.thumbnail_data["frame_time"]
)
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return best
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else:
return {}
def get_current_frame(self, camera, draw_options={}):
if camera == "birdseye":
return self.frame_manager.get(
"birdseye",
(self.config.birdseye.height * 3 // 2, self.config.birdseye.width),
)
return self.camera_states[camera].get_current_frame(draw_options)
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def get_current_frame_time(self, camera) -> int:
"""Returns the latest frame time for a given camera."""
return self.camera_states[camera].current_frame_time
def run(self):
while not self.stop_event.is_set():
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try:
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(
camera,
frame_time,
current_tracked_objects,
motion_boxes,
regions,
) = self.tracked_objects_queue.get(True, 1)
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except queue.Empty:
continue
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camera_state = self.camera_states[camera]
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camera_state.update(
frame_time, current_tracked_objects, motion_boxes, regions
)
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self.update_mqtt_motion(camera, frame_time, motion_boxes)
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tracked_objects = [
o.to_dict() for o in camera_state.tracked_objects.values()
]
# publish info on this frame
self.detection_publisher.publish(
(
camera,
frame_time,
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tracked_objects,
motion_boxes,
regions,
)
)
# update zone counts for each label
# for each zone in the current camera
for zone in self.config.cameras[camera].zones.keys():
# count labels for the camera in the zone
obj_counter = Counter(
obj.obj_data["label"]
for obj in camera_state.tracked_objects.values()
if zone in obj.current_zones and not obj.false_positive
)
active_obj_counter = Counter(
obj.obj_data["label"]
for obj in camera_state.tracked_objects.values()
if (
zone in obj.current_zones
and not obj.false_positive
and obj.active
)
)
total_label_count = 0
total_active_label_count = 0
# update counts and publish status
for label in set(self.zone_data[zone].keys()) | set(obj_counter.keys()):
# Ignore the artificial all label
if label == "all":
continue
# if we have previously published a count for this zone/label
zone_label = self.zone_data[zone][label]
active_zone_label = self.active_zone_data[zone][label]
if camera in zone_label:
current_count = sum(zone_label.values())
current_active_count = sum(active_zone_label.values())
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zone_label[camera] = (
obj_counter[label] if label in obj_counter else 0
)
active_zone_label[camera] = (
active_obj_counter[label]
if label in active_obj_counter
else 0
)
new_count = sum(zone_label.values())
new_active_count = sum(active_zone_label.values())
if new_count != current_count:
self.dispatcher.publish(
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f"{zone}/{label}",
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new_count,
retain=False,
)
if new_active_count != current_active_count:
self.dispatcher.publish(
f"{zone}/{label}/active",
new_active_count,
retain=False,
)
# Set the count for the /zone/all topic.
total_label_count += new_count
total_active_label_count += new_active_count
# if this is a new zone/label combo for this camera
else:
if label in obj_counter:
zone_label[camera] = obj_counter[label]
active_zone_label[camera] = active_obj_counter[label]
self.dispatcher.publish(
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f"{zone}/{label}",
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obj_counter[label],
retain=False,
)
self.dispatcher.publish(
f"{zone}/{label}/active",
active_obj_counter[label],
retain=False,
)
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# Set the count for the /zone/all topic.
total_label_count += obj_counter[label]
total_active_label_count += active_obj_counter[label]
# if we have previously published a count for this zone all labels
zone_label = self.zone_data[zone]["all"]
active_zone_label = self.active_zone_data[zone]["all"]
if camera in zone_label:
current_count = sum(zone_label.values())
current_active_count = sum(active_zone_label.values())
zone_label[camera] = total_label_count
active_zone_label[camera] = total_active_label_count
new_count = sum(zone_label.values())
new_active_count = sum(active_zone_label.values())
if new_count != current_count:
self.dispatcher.publish(
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f"{zone}/all",
new_count,
retain=False,
)
if new_active_count != current_active_count:
self.dispatcher.publish(
f"{zone}/all/active",
new_active_count,
retain=False,
)
# if this is a new zone all label for this camera
else:
zone_label[camera] = total_label_count
active_zone_label[camera] = total_active_label_count
self.dispatcher.publish(
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f"{zone}/all",
total_label_count,
retain=False,
)
self.dispatcher.publish(
f"{zone}/all/active",
total_active_label_count,
retain=False,
)
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# cleanup event finished queue
while not self.stop_event.is_set():
update = self.event_end_subscriber.check_for_update(timeout=0.01)
if not update:
break
event_id, camera, _ = update
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self.camera_states[camera].finished(event_id)
self.requestor.stop()
self.detection_publisher.stop()
self.event_sender.stop()
self.event_end_subscriber.stop()
logger.info("Exiting object processor...")