mirror of
https://github.com/blakeblackshear/frigate.git
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ab50d0b006
* Add isort and ruff linter Both linters are pretty common among modern python code bases. The isort tool provides stable sorting and grouping, as well as pruning of unused imports. Ruff is a modern linter, that is very fast due to being written in rust. It can detect many common issues in a python codebase. Removes the pylint dev requirement, since ruff replaces it. * treewide: fix issues detected by ruff * treewide: fix bare except clauses * .devcontainer: Set up isort * treewide: optimize imports * treewide: apply black * treewide: make regex patterns raw strings This is necessary for escape sequences to be properly recognized.
161 lines
6.3 KiB
Python
161 lines
6.3 KiB
Python
import cv2
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import imutils
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import numpy as np
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from frigate.config import MotionConfig
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class MotionDetector:
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def __init__(
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self,
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frame_shape,
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config: MotionConfig,
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improve_contrast_enabled,
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motion_threshold,
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motion_contour_area,
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):
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self.config = config
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self.frame_shape = frame_shape
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self.resize_factor = frame_shape[0] / config.frame_height
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self.motion_frame_size = (
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config.frame_height,
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config.frame_height * frame_shape[1] // frame_shape[0],
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)
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self.avg_frame = np.zeros(self.motion_frame_size, np.float32)
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self.avg_delta = np.zeros(self.motion_frame_size, np.float32)
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self.motion_frame_count = 0
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self.frame_counter = 0
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resized_mask = cv2.resize(
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config.mask,
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dsize=(self.motion_frame_size[1], self.motion_frame_size[0]),
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interpolation=cv2.INTER_LINEAR,
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)
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self.mask = np.where(resized_mask == [0])
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self.save_images = False
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self.improve_contrast = improve_contrast_enabled
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self.threshold = motion_threshold
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self.contour_area = motion_contour_area
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def detect(self, frame):
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motion_boxes = []
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gray = frame[0 : self.frame_shape[0], 0 : self.frame_shape[1]]
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# resize frame
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resized_frame = cv2.resize(
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gray,
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dsize=(self.motion_frame_size[1], self.motion_frame_size[0]),
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interpolation=cv2.INTER_LINEAR,
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)
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# Improve contrast
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if self.improve_contrast.value:
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minval = np.percentile(resized_frame, 4)
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maxval = np.percentile(resized_frame, 96)
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# don't adjust if the image is a single color
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if minval < maxval:
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resized_frame = np.clip(resized_frame, minval, maxval)
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resized_frame = (
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((resized_frame - minval) / (maxval - minval)) * 255
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).astype(np.uint8)
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# mask frame
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resized_frame[self.mask] = [255]
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# it takes ~30 frames to establish a baseline
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# dont bother looking for motion
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if self.frame_counter < 30:
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self.frame_counter += 1
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else:
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if self.save_images:
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self.frame_counter += 1
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# compare to average
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frameDelta = cv2.absdiff(resized_frame, cv2.convertScaleAbs(self.avg_frame))
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# compute the average delta over the past few frames
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# higher values mean the current frame impacts the delta a lot, and a single raindrop may
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# register as motion, too low and a fast moving person wont be detected as motion
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cv2.accumulateWeighted(frameDelta, self.avg_delta, self.config.delta_alpha)
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# compute the threshold image for the current frame
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current_thresh = cv2.threshold(
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frameDelta, self.threshold.value, 255, cv2.THRESH_BINARY
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)[1]
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# black out everything in the avg_delta where there isnt motion in the current frame
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avg_delta_image = cv2.convertScaleAbs(self.avg_delta)
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avg_delta_image = cv2.bitwise_and(avg_delta_image, current_thresh)
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# then look for deltas above the threshold, but only in areas where there is a delta
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# in the current frame. this prevents deltas from previous frames from being included
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thresh = cv2.threshold(
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avg_delta_image, self.threshold.value, 255, cv2.THRESH_BINARY
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)[1]
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# dilate the thresholded image to fill in holes, then find contours
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# on thresholded image
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thresh_dilated = cv2.dilate(thresh, None, iterations=2)
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cnts = cv2.findContours(
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thresh_dilated, cv2.RETR_EXTERNAL, cv2.CHAIN_APPROX_SIMPLE
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)
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cnts = imutils.grab_contours(cnts)
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# loop over the contours
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for c in cnts:
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# if the contour is big enough, count it as motion
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contour_area = cv2.contourArea(c)
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if contour_area > self.contour_area.value:
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x, y, w, h = cv2.boundingRect(c)
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motion_boxes.append(
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(
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int(x * self.resize_factor),
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int(y * self.resize_factor),
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int((x + w) * self.resize_factor),
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int((y + h) * self.resize_factor),
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)
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)
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if self.save_images:
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thresh_dilated = cv2.cvtColor(thresh_dilated, cv2.COLOR_GRAY2BGR)
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# print("--------")
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# print(self.frame_counter)
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for c in cnts:
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contour_area = cv2.contourArea(c)
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if contour_area > self.contour_area.value:
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x, y, w, h = cv2.boundingRect(c)
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cv2.rectangle(
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thresh_dilated,
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(x, y),
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(x + w, y + h),
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(0, 0, 255),
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2,
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)
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# print("--------")
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image_row_1 = cv2.hconcat(
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[
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cv2.cvtColor(frameDelta, cv2.COLOR_GRAY2BGR),
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cv2.cvtColor(avg_delta_image, cv2.COLOR_GRAY2BGR),
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]
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)
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image_row_2 = cv2.hconcat(
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[cv2.cvtColor(thresh, cv2.COLOR_GRAY2BGR), thresh_dilated]
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)
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combined_image = cv2.vconcat([image_row_1, image_row_2])
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cv2.imwrite(f"motion/motion-{self.frame_counter}.jpg", combined_image)
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if len(motion_boxes) > 0:
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self.motion_frame_count += 1
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if self.motion_frame_count >= 10:
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# only average in the current frame if the difference persists for a bit
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cv2.accumulateWeighted(
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resized_frame, self.avg_frame, self.config.frame_alpha
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)
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else:
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# when no motion, just keep averaging the frames together
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cv2.accumulateWeighted(
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resized_frame, self.avg_frame, self.config.frame_alpha
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)
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self.motion_frame_count = 0
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return motion_boxes
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