blakeblackshear.frigate/frigate/test/test_video.py

import unittest

import cv2
import numpy as np
from norfair.drawing.color import Palette
from norfair.drawing.drawer import Drawer

from frigate.util.image import intersection
from frigate.video import (
    get_cluster_boundary,
    get_cluster_candidates,
    get_cluster_region,
)


def draw_box(frame, box, color=(255, 0, 0), thickness=2):
    cv2.rectangle(
        frame,
        (box[0], box[1]),
        (box[2], box[3]),
        color,
        thickness,
    )


def save_clusters_image(name, boxes, candidates, regions=[]):
    canvas = np.zeros((1000, 2000, 3), np.uint8)
    for cluster in candidates:
        color = Palette.choose_color(np.random.rand())
        for b in cluster:
            box = boxes[b]
            draw_box(canvas, box, color, 2)
            # bottom right
            text_anchor = (
                box[2],
                box[3],
            )
            canvas = Drawer.text(
                canvas,
                str(b),
                position=text_anchor,
                size=None,
                color=(255, 255, 255),
                thickness=None,
            )
    for r in regions:
        draw_box(canvas, r, (0, 255, 0), 2)
    cv2.imwrite(
        f"debug/frames/{name}.jpg",
        canvas,
    )


def save_cluster_boundary_image(name, boxes, bounding_boxes):
    canvas = np.zeros((1000, 2000, 3), np.uint8)
    color = Palette.choose_color(np.random.rand())
    for box in boxes:
        draw_box(canvas, box, color, 2)
    for bound in bounding_boxes:
        draw_box(canvas, bound, (0, 255, 0), 2)
    cv2.imwrite(
        f"debug/frames/{name}.jpg",
        canvas,
    )


class TestRegion(unittest.TestCase):
    def setUp(self):
        self.frame_shape = (1000, 2000)
        self.min_region_size = 160

    def test_cluster_candidates(self):
        boxes = [(100, 100, 200, 200), (202, 150, 252, 200), (900, 900, 950, 950)]

        cluster_candidates = get_cluster_candidates(
            self.frame_shape, self.min_region_size, boxes
        )

        # save_clusters_image("cluster_candidates", boxes, cluster_candidates)

        assert len(cluster_candidates) == 2

    def test_cluster_boundary(self):
        boxes = [(100, 100, 200, 200), (215, 215, 325, 325)]
        boundary_boxes = [
            get_cluster_boundary(box, self.min_region_size) for box in boxes
        ]

        # save_cluster_boundary_image("bound", boxes, boundary_boxes)
        assert len(boundary_boxes) == 2

    def test_cluster_regions(self):
        boxes = [(100, 100, 200, 200), (202, 150, 252, 200), (900, 900, 950, 950)]

        cluster_candidates = get_cluster_candidates(
            self.frame_shape, self.min_region_size, boxes
        )

        regions = [
            get_cluster_region(self.frame_shape, self.min_region_size, candidate, boxes)
            for candidate in cluster_candidates
        ]

        # save_clusters_image("regions", boxes, cluster_candidates, regions)
        assert len(regions) == 2

    def test_box_too_small_for_cluster(self):
        boxes = [(100, 100, 600, 600), (655, 100, 700, 145)]

        cluster_candidates = get_cluster_candidates(
            self.frame_shape, self.min_region_size, boxes
        )

        regions = [
            get_cluster_region(self.frame_shape, self.min_region_size, candidate, boxes)
            for candidate in cluster_candidates
        ]

        save_clusters_image("too_small", boxes, cluster_candidates, regions)

        assert len(cluster_candidates) == 2
        assert len(regions) == 2

    def test_redundant_clusters(self):
        boxes = [(100, 100, 200, 200), (305, 305, 415, 415)]

        cluster_candidates = get_cluster_candidates(
            self.frame_shape, self.min_region_size, boxes
        )

        regions = [
            get_cluster_region(self.frame_shape, self.min_region_size, candidate, boxes)
            for candidate in cluster_candidates
        ]

        # save_clusters_image("redundant", boxes, cluster_candidates, regions)

        assert len(cluster_candidates) == 2
        assert all([len(c) == 1 for c in cluster_candidates])
        assert len(regions) == 2

    def test_combine_boxes(self):
        boxes = [
            (460, 0, 561, 144),
            (565, 0, 586, 71),
        ]

        # boundary_boxes = [get_cluster_boundary(box) for box in boxes]
        # save_cluster_boundary_image("combine_bound", boxes, boundary_boxes)

        cluster_candidates = get_cluster_candidates(
            self.frame_shape, self.min_region_size, boxes
        )

        regions = [
            get_cluster_region(self.frame_shape, self.min_region_size, candidate, boxes)
            for candidate in cluster_candidates
        ]

        # save_clusters_image("combine", boxes, cluster_candidates, regions)
        assert len(regions) == 1

    def test_dont_combine_boxes(self):
        boxes = [(460, 0, 532, 129), (586, 0, 606, 46)]

        # boundary_boxes = [get_cluster_boundary(box) for box in boxes]
        # save_cluster_boundary_image("dont_combine_bound", boxes, boundary_boxes)

        cluster_candidates = get_cluster_candidates(
            self.frame_shape, self.min_region_size, boxes
        )

        regions = [
            get_cluster_region(self.frame_shape, self.min_region_size, candidate, boxes)
            for candidate in cluster_candidates
        ]

        # save_clusters_image("dont_combine", boxes, cluster_candidates, regions)
        assert len(regions) == 2


class TestObjectBoundingBoxes(unittest.TestCase):
    def setUp(self) -> None:
        pass

    def test_box_intersection(self):
        box_a = [2012, 191, 2031, 205]
        box_b = [887, 92, 985, 151]
        box_c = [899, 128, 1080, 175]

        assert intersection(box_a, box_b) == None
        assert intersection(box_b, box_c) == (899, 128, 985, 151)
Improve motion detection and region selection (#6741) * refactor existing motion detector * implement and use cnt bgsub * pass fps to motion detector * create a simplified motion detector * lightning detection * update default motion config * lint imports * use estimated boxes for regions * use improved motion detector * update test * use a different strategy for clustering motion and object boxes * increase alpha during calibration * simplify object consolidation * add some reasonable constraints to the estimated box * adjust cluster boundary to 10% * refactor * add disabled debug code * fix variable scope 2023-06-11 15:45:11 +02:00			`import unittest`

			`import cv2`
			`import numpy as np`
			`from norfair.drawing.color import Palette`
			`from norfair.drawing.drawer import Drawer`

Cleanup and organize utils (#7033) * Force birdseye cameras into standard aspect ratios * Organize utils * Update tests * Formatting * Isort * Fix tests * Cleanup * isort 2023-07-06 16:28:50 +02:00			`from frigate.util.image import intersection`
Improve motion detection and region selection (#6741) * refactor existing motion detector * implement and use cnt bgsub * pass fps to motion detector * create a simplified motion detector * lightning detection * update default motion config * lint imports * use estimated boxes for regions * use improved motion detector * update test * use a different strategy for clustering motion and object boxes * increase alpha during calibration * simplify object consolidation * add some reasonable constraints to the estimated box * adjust cluster boundary to 10% * refactor * add disabled debug code * fix variable scope 2023-06-11 15:45:11 +02:00			`from frigate.video import (`
			`get_cluster_boundary,`
			`get_cluster_candidates,`
			`get_cluster_region,`
			`)`


			`def draw_box(frame, box, color=(255, 0, 0), thickness=2):`
			`cv2.rectangle(`
			`frame,`
			`(box[0], box[1]),`
			`(box[2], box[3]),`
			`color,`
			`thickness,`
			`)`


			`def save_clusters_image(name, boxes, candidates, regions=[]):`
			`canvas = np.zeros((1000, 2000, 3), np.uint8)`
			`for cluster in candidates:`
			`color = Palette.choose_color(np.random.rand())`
			`for b in cluster:`
			`box = boxes[b]`
			`draw_box(canvas, box, color, 2)`
			`# bottom right`
			`text_anchor = (`
			`box[2],`
			`box[3],`
			`)`
			`canvas = Drawer.text(`
			`canvas,`
			`str(b),`
			`position=text_anchor,`
			`size=None,`
			`color=(255, 255, 255),`
			`thickness=None,`
			`)`
			`for r in regions:`
			`draw_box(canvas, r, (0, 255, 0), 2)`
			`cv2.imwrite(`
			`f"debug/frames/{name}.jpg",`
			`canvas,`
			`)`


			`def save_cluster_boundary_image(name, boxes, bounding_boxes):`
			`canvas = np.zeros((1000, 2000, 3), np.uint8)`
			`color = Palette.choose_color(np.random.rand())`
			`for box in boxes:`
			`draw_box(canvas, box, color, 2)`
			`for bound in bounding_boxes:`
			`draw_box(canvas, bound, (0, 255, 0), 2)`
			`cv2.imwrite(`
			`f"debug/frames/{name}.jpg",`
			`canvas,`
			`)`


Fix bug in intersection logic (#6780) * Fix bug in intersection logic * Fix isort * Remove unrelated test * Formatting * Fix type in test 2023-06-13 00:38:22 +02:00			`class TestRegion(unittest.TestCase):`
Improve motion detection and region selection (#6741) * refactor existing motion detector * implement and use cnt bgsub * pass fps to motion detector * create a simplified motion detector * lightning detection * update default motion config * lint imports * use estimated boxes for regions * use improved motion detector * update test * use a different strategy for clustering motion and object boxes * increase alpha during calibration * simplify object consolidation * add some reasonable constraints to the estimated box * adjust cluster boundary to 10% * refactor * add disabled debug code * fix variable scope 2023-06-11 15:45:11 +02:00			`def setUp(self):`
			`self.frame_shape = (1000, 2000)`
			`self.min_region_size = 160`

			`def test_cluster_candidates(self):`
			`boxes = [(100, 100, 200, 200), (202, 150, 252, 200), (900, 900, 950, 950)]`

			`cluster_candidates = get_cluster_candidates(`
			`self.frame_shape, self.min_region_size, boxes`
			`)`

			`# save_clusters_image("cluster_candidates", boxes, cluster_candidates)`

			`assert len(cluster_candidates) == 2`

			`def test_cluster_boundary(self):`
			`boxes = [(100, 100, 200, 200), (215, 215, 325, 325)]`
			`boundary_boxes = [`
			`get_cluster_boundary(box, self.min_region_size) for box in boxes`
			`]`

			`# save_cluster_boundary_image("bound", boxes, boundary_boxes)`
			`assert len(boundary_boxes) == 2`

			`def test_cluster_regions(self):`
			`boxes = [(100, 100, 200, 200), (202, 150, 252, 200), (900, 900, 950, 950)]`

			`cluster_candidates = get_cluster_candidates(`
			`self.frame_shape, self.min_region_size, boxes`
			`)`

			`regions = [`
			`get_cluster_region(self.frame_shape, self.min_region_size, candidate, boxes)`
			`for candidate in cluster_candidates`
			`]`

			`# save_clusters_image("regions", boxes, cluster_candidates, regions)`
			`assert len(regions) == 2`

			`def test_box_too_small_for_cluster(self):`
			`boxes = [(100, 100, 600, 600), (655, 100, 700, 145)]`

			`cluster_candidates = get_cluster_candidates(`
			`self.frame_shape, self.min_region_size, boxes`
			`)`

			`regions = [`
			`get_cluster_region(self.frame_shape, self.min_region_size, candidate, boxes)`
			`for candidate in cluster_candidates`
			`]`

			`save_clusters_image("too_small", boxes, cluster_candidates, regions)`

			`assert len(cluster_candidates) == 2`
			`assert len(regions) == 2`

			`def test_redundant_clusters(self):`
			`boxes = [(100, 100, 200, 200), (305, 305, 415, 415)]`

			`cluster_candidates = get_cluster_candidates(`
			`self.frame_shape, self.min_region_size, boxes`
			`)`

			`regions = [`
			`get_cluster_region(self.frame_shape, self.min_region_size, candidate, boxes)`
			`for candidate in cluster_candidates`
			`]`

			`# save_clusters_image("redundant", boxes, cluster_candidates, regions)`

			`assert len(cluster_candidates) == 2`
			`assert all([len(c) == 1 for c in cluster_candidates])`
			`assert len(regions) == 2`

			`def test_combine_boxes(self):`
			`boxes = [`
			`(460, 0, 561, 144),`
			`(565, 0, 586, 71),`
			`]`

			`# boundary_boxes = [get_cluster_boundary(box) for box in boxes]`
			`# save_cluster_boundary_image("combine_bound", boxes, boundary_boxes)`

			`cluster_candidates = get_cluster_candidates(`
			`self.frame_shape, self.min_region_size, boxes`
			`)`

			`regions = [`
			`get_cluster_region(self.frame_shape, self.min_region_size, candidate, boxes)`
			`for candidate in cluster_candidates`
			`]`

			`# save_clusters_image("combine", boxes, cluster_candidates, regions)`
			`assert len(regions) == 1`

			`def test_dont_combine_boxes(self):`
			`boxes = [(460, 0, 532, 129), (586, 0, 606, 46)]`

			`# boundary_boxes = [get_cluster_boundary(box) for box in boxes]`
			`# save_cluster_boundary_image("dont_combine_bound", boxes, boundary_boxes)`

			`cluster_candidates = get_cluster_candidates(`
			`self.frame_shape, self.min_region_size, boxes`
			`)`

			`regions = [`
			`get_cluster_region(self.frame_shape, self.min_region_size, candidate, boxes)`
			`for candidate in cluster_candidates`
			`]`

			`# save_clusters_image("dont_combine", boxes, cluster_candidates, regions)`
			`assert len(regions) == 2`
Fix bug in intersection logic (#6780) * Fix bug in intersection logic * Fix isort * Remove unrelated test * Formatting * Fix type in test 2023-06-13 00:38:22 +02:00

			`class TestObjectBoundingBoxes(unittest.TestCase):`
			`def setUp(self) -> None:`
			`pass`

			`def test_box_intersection(self):`
			`box_a = [2012, 191, 2031, 205]`
			`box_b = [887, 92, 985, 151]`
			`box_c = [899, 128, 1080, 175]`

			`assert intersection(box_a, box_b) == None`
			`assert intersection(box_b, box_c) == (899, 128, 985, 151)`