コード例 #1
0
def sobel():
    cv.Smooth(src_image, dst_image, cv.CV_GAUSSIAN, 3, 3)
    src_gray = cv.CreateImage((src_image.width, src_image.height), 8, 1)
    dst_gray1 = cv.CreateImage((src_image.width, src_image.height), 8, 1)
    dst_gray = cv.CreateImage((src_image.width, src_image.height), 8, 1)
    cv.CvtColor(src_image, src_gray, cv.CV_BGR2GRAY)
    cv.Sobel(src_gray, dst_gray1, 0, 1, 3)
    cv.ConvertScaleAbs(dst_gray1, dst_gray1, 1, 0)
    cv.Sobel(src_gray, dst_gray, 1, 0, 3)
    cv.ConvertScaleAbs(dst_gray, dst_gray, 1, 0)
    cv.AddWeighted(dst_gray, 0.5, dst_gray1, 0.5, 0, dst_gray)
    cv.NamedWindow("Destination Image")
    cv.ShowImage("Destination Image", dst_gray)
    cv.WaitKey(0)
コード例 #2
0
ファイル: map_line_detector.py プロジェクト: artur84/emotion
    def get_gradient_img(self, input_img):
        # Generate grad_x and grad_y to use Sobel
        grad_x=cv.CreateMat(input_img.height, input_img.width, input_img.type)
        grad_y=cv.CreateMat(input_img.height, input_img.width, input_img.type)
        abs_grad_x=cv.CreateMat(input_img.height, input_img.width, input_img.type)
        abs_grad_y=cv.CreateMat(input_img.height, input_img.width, input_img.type)
        grad =cv.CreateMat(input_img.height, input_img.width, input_img.type)

        #Gradient X
        #Scharr( src_gray, grad_x, ddepth, 1, 0, scale, delta, BORDER_DEFAULT );#for small kernels use this instead of sobel
        cv.Sobel( input_img, grad_x, 1, 0)
        cv.Abs(grad_x, abs_grad_x )

        #Gradient Y
        #Scharr( src_gray, grad_y, ddepth, 0, 1, scale, delta, BORDER_DEFAULT );
        cv.Sobel( input_img, grad_y, 0, 1)
        cv.Abs( grad_y, abs_grad_y )

        #/// Total Gradient (approximate)
        cv.AddWeighted( abs_grad_x, 0.5, abs_grad_y, 0.5, 0, grad )
        return grad
コード例 #3
0
            def contour_iterator(contour):
                while contour:
                    yield contour
                    contour = contour.h_next()

            cv.Zero(markers)
            comp_count = 0
            for c in contour_iterator(contours):
                cv.DrawContours(markers, c, cv.ScalarAll(comp_count + 1),
                                cv.ScalarAll(comp_count + 1), -1, -1, 8)
                comp_count += 1

            cv.Watershed(img0, markers)

            cv.Set(wshed, cv.ScalarAll(255))

            # paint the watershed image
            color_tab = [
                (cv.RandInt(rng) % 180 + 50, cv.RandInt(rng) % 180 + 50,
                 cv.RandInt(rng) % 180 + 50) for i in range(comp_count)
            ]
            for j in range(markers.height):
                for i in range(markers.width):
                    idx = markers[j, i]
                    if idx != -1:
                        wshed[j, i] = color_tab[int(idx - 1)]

            cv.AddWeighted(wshed, 0.5, img_gray, 0.5, 0, wshed)
            cv.ShowImage("watershed transform", wshed)