#! /usr/bin/env python from random import Random import colorsys print "OpenCV Python version of drawing" import cv def random_color(random): """ Return a random color """ icolor = random.randint(0, 0xFFFFFF) return cv.Scalar(icolor & 0xff, (icolor >> 8) & 0xff, (icolor >> 16) & 0xff) if __name__ == '__main__': # some "constants" width = 1000 height = 700 window_name = "Drawing Demo" number = 100 delay = 5 line_type = cv.CV_AA # change it to 8 to see non-antialiased graphics # create the source image image = cv.CreateImage( (width, height), 8, 3) # create window and display the original picture in it cv.NamedWindow(window_name, 1) cv.SetZero(image) cv.ShowImage(window_name, image) # create the random number random = Random() # draw some lines for i in range(number): pt1 = (random.randrange(-width, 2 * width), random.randrange(-height, 2 * height)) pt2 = (random.randrange(-width, 2 * width), random.randrange(-height, 2 * height)) cv.Line(image, pt1, pt2, random_color(random), random.randrange(0, 10), line_type, 0) cv.ShowImage(window_name, image) cv.WaitKey(delay) # draw some rectangles for i in range(number): pt1 = (random.randrange(-width, 2 * width), random.randrange(-height, 2 * height)) pt2 = (random.randrange(-width, 2 * width), random.randrange(-height, 2 * height)) cv.Rectangle(image, pt1, pt2, random_color(random), random.randrange(-1, 9), line_type, 0) cv.ShowImage(window_name, image) cv.WaitKey(delay) # draw some ellipes for i in range(number): pt1 = (random.randrange(-width, 2 * width), random.randrange(-height, 2 * height)) sz = (random.randrange(0, 200), random.randrange(0, 200)) angle = random.randrange(0, 1000) * 0.180 cv.Ellipse(image, pt1, sz, angle, angle - 100, angle + 200, random_color(random), random.randrange(-1, 9), line_type, 0) cv.ShowImage(window_name, image) cv.WaitKey(delay) # init the list of polylines nb_polylines = 2 polylines_size = 3 pt = [0,] * nb_polylines for a in range(nb_polylines): pt [a] = [0,] * polylines_size # draw some polylines for i in range(number): for a in range(nb_polylines): for b in range(polylines_size): pt [a][b] = (random.randrange(-width, 2 * width), random.randrange(-height, 2 * height)) cv.PolyLine(image, pt, 1, random_color(random), random.randrange(1, 9), line_type, 0) cv.ShowImage(window_name, image) cv.WaitKey(delay) # draw some filled polylines for i in range(number): for a in range(nb_polylines): for b in range(polylines_size): pt [a][b] = (random.randrange(-width, 2 * width), random.randrange(-height, 2 * height)) cv.FillPoly(image, pt, random_color(random), line_type, 0) cv.ShowImage(window_name, image) cv.WaitKey(delay) # draw some circles for i in range(number): pt1 = (random.randrange(-width, 2 * width), random.randrange(-height, 2 * height)) cv.Circle(image, pt1, random.randrange(0, 300), random_color(random), random.randrange(-1, 9), line_type, 0) cv.ShowImage(window_name, image) cv.WaitKey(delay) # draw some text for i in range(number): pt1 = (random.randrange(-width, 2 * width), random.randrange(-height, 2 * height)) font = cv.InitFont(random.randrange(0, 8), random.randrange(0, 100) * 0.05 + 0.01, random.randrange(0, 100) * 0.05 + 0.01, random.randrange(0, 5) * 0.1, random.randrange(0, 10), line_type) cv.PutText(image, "Testing text rendering!", pt1, font, random_color(random)) cv.ShowImage(window_name, image) cv.WaitKey(delay) # prepare a text, and get it's properties font = cv.InitFont(cv.CV_FONT_HERSHEY_COMPLEX, 3, 3, 0.0, 5, line_type) text_size, ymin = cv.GetTextSize("OpenCV forever!", font) pt1 = ((width - text_size[0]) / 2, (height + text_size[1]) / 2) image2 = cv.CloneImage(image) # now, draw some OpenCV pub ;-) for i in range(0, 512, 2): cv.SubS(image2, cv.ScalarAll(i), image) (r, g, b) = colorsys.hsv_to_rgb((i % 100) / 100., 1, 1) cv.PutText(image, "OpenCV forever!", pt1, font, cv.RGB(255 * r, 255 * g, 255 * b)) cv.ShowImage(window_name, image) cv.WaitKey(delay) # wait some key to end cv.WaitKey(0)