예제 #1
0
class LogoFinder:
    def __init__(self):
        self.heatmapper = Heatmapper(
            point_diameter=15,
            point_strength=0.05,
            opacity=3,
            colours='reveal',
        )
        self.heatmap_name = 'heatmap.png'
        self.detector = CENSURE()

    @staticmethod
    def read_image(image_path):
        image = cv2.imread(image_path)
        bgr = image
        gray = cv2.cvtColor(image, cv2.COLOR_BGR2GRAY)
        rgb = cv2.cvtColor(image, cv2.COLOR_BGR2RGB)
        return bgr, rgb, gray

    def make_heatmap(self, image_path):
        bgr_heatmap, rgb_heatmap, gray_heatmap = self.read_image(image_path)

        # Find contours and edges
        contours = find_contours(gray_heatmap,
                                 100,
                                 fully_connected='high',
                                 positive_orientation='high')
        edge_roberts = roberts(gray_heatmap)
        edge_sobel = sobel(gray_heatmap)

        self.detector.detect(gray_heatmap)
        thresh = threshold_otsu(gray_heatmap)
        bw = closing(gray_heatmap > thresh, square(3))
        cleared = clear_border(bw)
        label_image = label(cleared)
        image_label_overlay = label2rgb(label_image, image=gray_heatmap)

        edges = edge_roberts / 2 + edge_sobel / 2
        dots = list()

        for x in range(edges.shape[1]):
            for y in range(edges.shape[0]):
                for i in range(int(edges[y][x] * 2)):
                    dots.append([x, y])

        for n, point in enumerate(self.detector.keypoints):
            for i in range(self.detector.scales[n] * 10):
                dots.append([
                    point[1] + (random.random() - 0.5) * 10,
                    point[0] + (random.random() - 0.5) * 10
                ])

        for n, contour in enumerate(contours):
            if len(contour) > 50:
                for dot in contour:
                    dots.append([dot[1], dot[0]])

        for region in regionprops(label_image):
            # take regions with large enough areas
            if region.area >= 100:
                # draw rectangle around segmented coins
                minr, minc, maxr, maxc = region.bbox
                for x in range(minc, maxc):
                    for y in range(minr, maxr, 8):
                        dots.append([x, y])

        heatmap = self.heatmapper.heatmap_on_img_path(dots, image_path)
        heatmap.save(self.heatmap_name)

        bgr_heatmap, rgb_heatmap, gray_heatmap = self.read_image(
            self.heatmap_name)

        thresh = threshold_otsu(gray_heatmap)
        bw = closing(gray_heatmap > thresh, square(3))
        cleared = clear_border(bw)
        label_image = label(cleared)
        image_label_overlay = label2rgb(label_image, image=gray_heatmap)
        for n, region in enumerate(regionprops(label_image)):
            minr, minc, maxr, maxc = region.bbox
            if maxr - minr > 30 and maxc - minc > 30:
                yield minr, minc, maxr, maxc
예제 #2
0
from heatmappy import Heatmapper

from PIL import Image

example_points = [(100, 20), (120, 25), (200, 50), (60, 300), (170, 250)]
example_img_path = 'default-cat.png'
example_img = Image.open(example_img_path)

heatmapper = Heatmapper()
heatmap = heatmapper.heatmap_on_img(example_points, example_img)
heatmap.save('heatmapbasic.png')

heatmapper = Heatmapper(opacity=0.9, colours='reveal')
heatmap = heatmapper.heatmap_on_img_path(example_points, example_img_path)
heatmap.save('heatmapreveal.png')