コード例 #1
0
	def draw_fft(self, frame, fft_data, min_bpm, max_bpm):
		w = frame.width
		h = int(frame.height * Annotator.FFT_HEIGHT)
		x = 0
		y = frame.height
		
		max_magnitude = max(d[1][0] for d in fft_data)
		
		def get_position(i):
			point_x = int(w * (float(fft_data[i][0] - min_bpm) / float(max_bpm - min_bpm)))
			point_y = int(y - ((h * fft_data[i][1][0]) / max_magnitude))
			return point_x, point_y
		
		line = [get_position(i) for i in range(len(fft_data))]
		
		cv.PolyLine(frame, [line], False, self.get_colour()[0], 3)
		
		# Label the largest bin
		max_bin = max(range(len(fft_data)), key=(lambda i: fft_data[i][1][0]))
		
		x,y = get_position(max_bin)
		c = self.get_colour()
		text = "%0.1f"%fft_data[max_bin][0]
		
		cv.PutText(frame, text, (x,y), self.small_font_outline, c[1])
		cv.PutText(frame, text, (x,y), self.small_font, c[0])
		
		# Pulse ring
		r = Annotator.SMALL_PULSE_SIZE
		phase = int(((fft_data[max_bin][1][1] % (2*numpy.pi)) / numpy.pi) * 180)
		cv.Ellipse(frame, (int(x-(r*1.5)),int(y-r)), (int(r),int(r)), 0, 90, 90-phase, c[1], Annotator.THIN+Annotator.BORDER)
		cv.Ellipse(frame, (int(x-(r*1.5)),int(y-r)), (int(r),int(r)), 0, 90, 90-phase, c[0], Annotator.THIN)
コード例 #2
0
    def render(self, window):
        with self.lock:
            if self.image and self.image_time + rospy.Duration(2.0) > rospy.Time.now() and self.info_time + rospy.Duration(2.0) > rospy.Time.now():
                cv.Resize(self.bridge.imgmsg_to_cv(self.image, 'rgb8'), window)
                interval = min(1,(self.interval / self.max_interval))
                cv.Rectangle(window,
                             (int(0.05*window.width), int(window.height*0.9)),
                             (int(interval*window.width*0.9+0.05*window.width), int(window.height*0.95)),
                             (0, interval*255, (1-interval)*255), thickness=-1)
                cv.Rectangle(window,
                             (int(0.05*window.width), int(window.height*0.9)),
                             (int(window.width*0.9+0.05*window.width), int(window.height*0.95)),
                             (0, interval*255, (1-interval)*255))
                cv.PutText(window, self.ns, (int(window.width * .05), int(window.height * 0.1)), self.font1, (0,0,255))
                if self.features and self.features.header.stamp + rospy.Duration(4.0) > self.image.header.stamp:
                    w_scaling =  float (window.width) / self.image.width
                    h_scaling =  float (window.height) / self.image.height
                    if self.features.success:
                        corner_color = (0,255,0)
                        for cur_pt in self.features.image_points:
                            cv.Circle(window, (int(cur_pt.x*w_scaling), int(cur_pt.y*h_scaling)), int(w_scaling*5), corner_color)
                    else:
                        window = add_text(window, ["Could not detect", "checkerboard"], False)
                else:
                    window = add_text(window, ["Timed out waiting", "for checkerboard"], False)

            else:
                # Generate random white noise (for fun)
                noise = numpy.random.rand(window.height, window.width)*256
                numpy.asarray(window)[:,:,0] = noise;
                numpy.asarray(window)[:,:,1] = noise;
                numpy.asarray(window)[:,:,2] = noise;
                cv.PutText(window, self.ns, (int(window.width * .05), int(window.height * .95)), self.font, (0,0,255))
コード例 #3
0
def publish_debug(img, results):
    imgsize = cv.GetSize(img)
    sizelist = [cv.GetSize(tmp[1]) for tmp in templates]
    width = max(imgsize[0], sum([s[0] for s in sizelist]))
    height = imgsize[1] + max([s[1] for s in sizelist])
    output = cv.CreateImage((width, height), cv.IPL_DEPTH_8U, 1)
    cv.Zero(output)
    cur_x = 0

    view_rect = (0, height-imgsize[1], imgsize[0], imgsize[1])
    cv.SetImageROI(output, view_rect)
    cv.Copy(img, output)
    for template in templates:
        size = cv.GetSize(template[1])
        cv.SetImageROI(output, (cur_x, 0, size[0], size[1]))
        cv.Copy(template[1], output)
        cur_x += size[0]

        #cv.PutText(output, tempname, (0,size[1]-16), font, cv.CV_RGB(255,255,255))
        #cv.PutText(output, str(tempthre)+'<'+str(status[1]), (0,size[1]-8), font, cv.CV_RGB(255,255,255))
        for _,status in [s for s in results if s[0] == template[3]]:
            print status
            cv.PutText(output, template[3], (0,size[1]-42), font, cv.CV_RGB(255,255,255))
            cv.PutText(output, "%7.5f"%(status[0]), (0,size[1]-24), font, cv.CV_RGB(255,255,255))
            cv.PutText(output, "%7.5f"%(status[2]), (0,size[1]-8), font, cv.CV_RGB(255,255,255))
            if status[3] : 
                cv.Rectangle(output, (0, 0), size, cv.RGB(255,255,255), 9)
        cv.SetImageROI(output, view_rect)
        for _,status in [s for s in results if s[0] == template[3]]:
            pt2 = (status[1][0]+size[0], status[1][1]+size[1])
            if status[3] : 
                cv.Rectangle(output, status[1], pt2, cv.RGB(255,255,255), 5)

    cv.ResetImageROI(output)
    debug_pub.publish(bridge.cv_to_imgmsg(output, encoding="passthrough"))
コード例 #4
0
def setup(flipped, capture, thehandcolor):
    """Initializes camera and finds initial skin tone"""

    #creates initial window and prepares text
    color = (40, 0, 0)
    font = cv.InitFont(cv.CV_FONT_HERSHEY_SIMPLEX, 1.0, 1.0)
    textsize1 = (cv.GetSize(flipped)[0] / 2 - 150,
                 cv.GetSize(flipped)[1] / 2 - 140)
    textsize2 = (cv.GetSize(flipped)[0] / 2 - 150,
                 cv.GetSize(flipped)[1] / 2 - 110)
    point1 = (cv.GetSize(flipped)[0] / 2 - 25, cv.GetSize(flipped)[1] / 2 - 25)
    point2 = (cv.GetSize(flipped)[0] / 2 + 25, cv.GetSize(flipped)[1] / 2 + 25)

    #until Enter is pressed
    while (cv.WaitKey(10) != 10):

        #captures live video, and draws sub-box and text
        frame = cv.QueryFrame(capture)
        cv.Copy(frame, flipped)
        cv.Flip(flipped, flipped, 1)
        cv.Rectangle(flipped, point1, point2, color, 2)
        cv.PutText(flipped, "Put your hand in the box ", textsize1, font,
                   color)
        cv.PutText(flipped, "and press enter", textsize2, font, color)
        cv.ShowImage("w2", flipped)

    #Creates sub-image inside box, and returns average color in box
    sub = cv.GetSubRect(flipped, (cv.GetSize(flipped)[0] / 2 - 25,
                                  cv.GetSize(flipped)[1] / 2 - 25, 50, 50))
    cv.Set(thehandcolor, cv.Avg(sub))
    return cv.Avg(sub)
コード例 #5
0
  def step(self, show):
    r_image = cv.QueryFrame(self.capture)

    if Camera.EXTERNAL:
      self.image = cv.CreateImage((r_image.height, r_image.width), r_image.depth, r_image.channels)
      cv.Transpose(r_image, self.image)
      cv.Flip(self.image, self.image, flipMode=0)
    else:
      self.image = r_image


    self.detect_faces()

    for (x,y,w,h) in self.faces:
      cv.PutText(self.image, "LOOK AT THIS IDIOT", (0, 30), Camera.FONT, Camera.RED)
      cv.PutText(self.image, str(time.time()), (self.image.width - 275, self.image.height - 20), Camera.FONT, Camera.RED)
      cv.Line(self.image, (0, y+h/2), (self.image.width, y+h/2), Camera.RED)
      cv.Line(self.image, (x+w/2, 0), (x+w/2, self.image.height), Camera.RED)
      cv.Circle(self.image, (x+w/2, y+h/2), min(h/2, w/2), Camera.RED, thickness=2)
      cv.Circle(self.image, (x+w/2, y+h/2), min(h/8, w/8), Camera.RED)
      #arrow(self.image, (200, 40), (x, y), Camera.WHITE)

    if show:
      print self.faces
      cv.ShowImage("w1", self.image)
      cv.WaitKey(1)

    return self.image
コード例 #6
0
ファイル: cameracalibrator.py プロジェクト: Jykkis/atv
    def redraw_monocular(self, drawable):
        width, height = cv.GetSize(drawable.scrib)

        display = cv.CreateMat(max(480, height), width + 100, cv.CV_8UC3)
        cv.Zero(display)
        cv.Copy(drawable.scrib, cv.GetSubRect(display, (0, 0, width, height)))
        cv.Set(cv.GetSubRect(display, (width, 0, 100, height)),
               (255, 255, 255))

        self.buttons(display)
        if not self.c.calibrated:
            if drawable.params:
                for i, (label, lo, hi, progress) in enumerate(drawable.params):
                    (w, _), _ = cv.GetTextSize(label, self.font)
                    cv.PutText(display, label,
                               (width + (100 - w) / 2, self.y(i)), self.font,
                               (0, 0, 0))
                    color = (0, 255, 0)
                    if progress < 1.0:
                        color = (0, int(progress * 255.), 255)
                    cv.Line(display, (int(width + lo * 100), self.y(i) + 20),
                            (int(width + hi * 100), self.y(i) + 20), color, 4)

        else:
            cv.PutText(display, "lin.", (width, self.y(0)), self.font,
                       (0, 0, 0))
            linerror = drawable.linear_error
            if linerror < 0:
                msg = "?"
            else:
                msg = "%.2f" % linerror
                #print "linear", linerror
            cv.PutText(display, msg, (width, self.y(1)), self.font, (0, 0, 0))

        self.show(display)
コード例 #7
0
ファイル: pizza.py プロジェクト: tarora2/seawolf
    def draw_pizza(self):
        print "Number of boxes:", len(self.Boxes)
        for Box in self.Boxes:
            line_color = (random.randint(0, 255), random.randint(0, 255),
                          random.randint(0, 255))
            cv.Line(self.debug_frame, Box.corner1, Box.corner2, line_color, 10,
                    cv.CV_AA, 0)
            cv.Line(self.debug_frame, Box.corner1, Box.corner3, line_color, 10,
                    cv.CV_AA, 0)
            cv.Line(self.debug_frame, Box.corner3, Box.corner4, line_color, 10,
                    cv.CV_AA, 0)
            cv.Line(self.debug_frame, Box.corner2, Box.corner4, line_color, 10,
                    cv.CV_AA, 0)
            font = cv.InitFont(cv.CV_FONT_HERSHEY_SIMPLEX, 1, 1, 0, 2, 1)
            cv.PutText(self.debug_frame, str("1"),
                       (int(Box.corner1[0]), int(Box.corner1[1])), font,
                       (0, 0, 255))
            cv.PutText(self.debug_frame, str("2"),
                       (int(Box.corner2[0]), int(Box.corner2[1])), font,
                       (0, 0, 255))
            cv.PutText(self.debug_frame, str("3"),
                       (int(Box.corner3[0]), int(Box.corner3[1])), font,
                       (0, 0, 255))
            cv.PutText(self.debug_frame, str("4"),
                       (int(Box.corner4[0]), int(Box.corner4[1])), font,
                       (0, 0, 255))
            center = (int(Box.center[0]), int(Box.center[1]))

            cv.Circle(self.debug_frame, center, 15, (255, 0, 0), 2, 8, 0)
コード例 #8
0
ファイル: orient.py プロジェクト: michaelerickstad/PyGRBL
 def write(self, msg, loc, lineheight=20, color=None, outline=True):
     '''Write a string(msg) to the screen. This handles new lines like 
     butter, and defaults to outlineing the text'''
     for i, line in enumerate(msg.splitlines()):
         l = (loc[0], loc[1] + i * lineheight)
         if outline:
             cv.PutText(self.frame, line, l, self.getfont(outline), 0)
         cv.PutText(self.frame, line, l, self.getfont(outline), self.color)
コード例 #9
0
    def runVideo(self):
        frameCount = 0
        x = self.xFont
        y = self.yFont
        font = self.videoFont
        tom2Coords = self.tom2Coords
        tom1Coords = self.tom1Coords
        snareCoords = self.snareCoords
        hihatCoords = self.hihatCoords

        i = 2

        while True:
            if i % 2 == 0:
                frame = cv.QueryFrame(capture)

                self.redStick.drawBoundingCircle(frame)
                self.blueStick.drawBoundingCircle(frame)

                self.redStick.appendCentersList()
                self.blueStick.appendCentersList()

                self.redStick.findDelta()
                self.blueStick.findDelta()

                self.redStick.playSounds()
                self.blueStick.playSounds()

                cv.Rectangle(frame, (tom1Coords[0], tom1Coords[1]),
                             (tom1Coords[2], tom1Coords[3]), (255, 0, 0), 0)

                cv.Rectangle(frame, (tom2Coords[0], tom2Coords[1]),
                             (tom2Coords[2], tom2Coords[3]), (0, 255, 0), 0)

                cv.Rectangle(frame, (snareCoords[0], snareCoords[1]),
                             (snareCoords[2], snareCoords[3]), (0, 0, 255), 0)

                cv.Rectangle(frame, (hihatCoords[0], hihatCoords[1]),
                             (hihatCoords[2], hihatCoords[3]), (125, 125, 0),
                             0)

                cv.Flip(frame, frame, 1)
                cv.PutText(frame, "Press q or esc to terminate.", (x, y), font,
                           (0, 255, 0))
                cv.PutText(frame, "Current Velocities:", (x, y + 50), font,
                           (0, 255, 255))
                cv.PutText(frame, str(self.redStick.delta), (x, y + 100), font,
                           (0, 0, 255))
                cv.PutText(frame, str(self.blueStick.delta),
                           (x + 100, y + 100), font, (255, 0, 0))
                cv.ShowImage("DrumMaster 9000!", frame)
                key = cv.WaitKey(7)
                if key == 27 or key == 113:
                    cv.DestroyAllWindows()
                    pygame.quit()
                    exit()
                    break
                frameCount += 1
コード例 #10
0
    def sort_bins(self):
        # promote candidate to confirmed if seen enough times, if it hasn't been seen, delete the bin
        for candidate in self.candidates:

            candidate.last_seen -= 1
            if candidate.last_seen < self.last_seen_thresh:
                self.candidates.remove(candidate)
                print "lost"
                continue
            if candidate.seencount > self.min_seencount:
                self.confirmed.append(candidate)
                self.candidates.remove(candidate)
                print "confirmed"
                continue

        self.min_perimeter = 500000
        self.angles = []
        for confirmed in self.confirmed:
            if 0 < line_distance(confirmed.corner1, confirmed.corner3) * 2 + line_distance(confirmed.corner1, confirmed.corner2) * 2 < self.min_perimeter:
                self.min_perimeter = line_distance(confirmed.corner1, confirmed.corner3) * 2 + line_distance(confirmed.corner1, confirmed.corner2) * 2
            # print confirmed.angle/math.pi*180
            self.angles.append(cv.Round(confirmed.angle / math.pi * 180 / 10) * 10)

        # compare perimeter of existing bins. If a bin is too much bigger than the others, it is deleted. This is done to get rid of bins found based of 3 bins
        for confirmed in self.confirmed:
            if math.fabs(line_distance(confirmed.corner1, confirmed.corner3) * 2 + math.fabs(line_distance(confirmed.corner1, confirmed.corner2) * 2) - self.min_perimeter) > self.min_perimeter * self.perimeter_threshold and line_distance(confirmed.corner1, confirmed.corner3) * 2 + line_distance(confirmed.corner1, confirmed.corner2) * 2 > self.min_perimeter:
                print "perimeter error (this is a good thing)"
                print math.fabs(line_distance(confirmed.corner1, confirmed.corner3) * 2 + math.fabs(line_distance(confirmed.corner1, confirmed.corner2) * 2) - self.min_perimeter), "is greater than", self.min_perimeter * self.perimeter_threshold
                print "yay?"

                confirmed.last_seen -= 5

                continue

            confirmed.last_seen -= 1
            if confirmed.last_seen < self.last_seen_thresh:
                self.confirmed.remove(confirmed)
                print "lost confirmed"
                continue
            # draw bins
            line_color = (confirmed.corner1[1] / 2, confirmed.corner2[1] / 2, confirmed.corner4[1] / 2)
            cv.Circle(self.debug_frame, (int(confirmed.midx), int(confirmed.midy)), 15, line_color, 2, 8, 0)
            pt1 = (cv.Round(confirmed.corner1[0]), cv.Round(confirmed.corner1[1]))
            pt2 = (cv.Round(confirmed.corner2[0]), cv.Round(confirmed.corner2[1]))
            cv.Line(self.debug_frame, pt1, pt2, line_color, 1, cv.CV_AA, 0)
            pt2 = (cv.Round(confirmed.corner2[0]), cv.Round(confirmed.corner2[1]))
            pt4 = (cv.Round(confirmed.corner4[0]), cv.Round(confirmed.corner4[1]))
            pt3 = (cv.Round(confirmed.corner3[0]), cv.Round(confirmed.corner3[1]))
            cv.Line(self.debug_frame, pt2, pt4, line_color, 1, cv.CV_AA, 0)
            cv.Line(self.debug_frame, pt3, pt4, line_color, 1, cv.CV_AA, 0)
            cv.Line(self.debug_frame, pt1, pt3, line_color, 1, cv.CV_AA, 0)
            font = cv.InitFont(cv.CV_FONT_HERSHEY_SIMPLEX, .6, .6, 0, 1, 1)
            text_color = (0, 255, 0)
            # print id and last_seen by each bin
            cv.PutText(self.debug_frame, str(confirmed.id), (int(confirmed.midx), int(confirmed.midy)), font, confirmed.debug_color)
            cv.PutText(self.debug_frame, str(confirmed.last_seen), (int(confirmed.midx - 20), int(confirmed.midy - 20)), font, confirmed.debug_color)
コード例 #11
0
ファイル: lab9.py プロジェクト: obviousbicycle/poptart
def draw_text_to_image():
    """ A function to handle drawing things to the image """
    # draw a rectangle under the text to make it more visible
    cv.Rectangle(D.image, (0, 0), (100, 50), cv.RGB(255, 255, 255),
                 cv.CV_FILLED)
    # place some text there
    cv.PutText(D.image, D.state, (5, 10), D.font, cv.RGB(0, 0, 0))
    # and some values
    randomness = random.randint(-100, 100)
    area = 4242 + randomness
    area_string = str(area)
    cv.PutText(D.image, area_string, (5, 25), D.font, cv.RGB(0, 0, 0))
コード例 #12
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def capture_draw():
    img = cv.QueryFrame(capture)
    # scale your big ole face down to something small
    thumb = cv.CreateMat(img.height / SCALE, img.width / SCALE, cv.CV_8UC3)
    cv.Resize(img, thumb)
    faces = get_face_roi(thumb)
    for (x, y, w, h), n in faces:
        temp_offset = (x * SCALE, y * SCALE)
        cv.SetImageROI(img,
                       ((x) * SCALE, (y) * SCALE, (w) * SCALE, (h) * SCALE))
        roi_image = cv.CreateImage(cv.GetSize(img), img.depth, img.nChannels)
        cv.Copy(img, roi_image)
        cv.ResetImageROI(img)

        cv.Rectangle(img, (x * SCALE, y * SCALE),
                     (x * SCALE + w * SCALE, y * SCALE + h * SCALE),
                     (255, 0, 0))
        cv.PutText(img, 'face', (x * SCALE, y * SCALE), font, (200, 200, 200))

        FEATURE_SCALE = (float(roi_image.width) / ROI_TARGET_SIZE[0],
                         float(roi_image.height) / ROI_TARGET_SIZE[1])
        roi_thumb = cv.CreateImage((int(roi_image.width / FEATURE_SCALE[0]),
                                    int(roi_image.height / FEATURE_SCALE[1])),
                                   cv.IPL_DEPTH_8U, 3)
        cv.Resize(roi_image, roi_thumb)

        features = get_features(roi_thumb)
        cv.ShowImage("ROI", roi_image)
        for name in features:
            if features[name] != None:
                for (x1, y1, w1, h1), n1 in features[name]:
                    cv.SetImageROI(
                        roi_image,
                        (x1 * FEATURE_SCALE[0], y1 * FEATURE_SCALE[1],
                         w1 * FEATURE_SCALE[0], h1 * FEATURE_SCALE[1]))
                    feature_image = cv.CreateImage(cv.GetSize(roi_image),
                                                   roi_image.depth,
                                                   roi_image.nChannels)
                    cv.Copy(roi_image, feature_image)
                    cv.ResetImageROI(feature_image)
                    cv.ShowImage(name, feature_image)
                    cv.PutText(img, name,
                               (temp_offset[0] + x1 * FEATURE_SCALE[0],
                                temp_offset[1] + y1 * FEATURE_SCALE[1]), font,
                               (200, 200, 200))
                    cv.Rectangle(
                        img, (temp_offset[0] + x1 * FEATURE_SCALE[0],
                              temp_offset[1] + y1 * FEATURE_SCALE[1]),
                        (temp_offset[0] +
                         (x1 + w1) * FEATURE_SCALE[0], temp_offset[1] +
                         (y1 + h1) * FEATURE_SCALE[1]), (0, 255, 255))
    cv.ShowImage("Whole Image", img)
コード例 #13
0
ファイル: bolt_gui.py プロジェクト: ntrntr/ua-ros-pkg
    def process_image(self, msg):
        try:
            cvim = self.bridge.imgmsg_to_cv(msg, 'bgr8')
        except CvBridgeError as err:
            rospy.logerr(e)
            return

        if self.boxes: cv.PolyLine(cvim, self.boxes, True, (0, 0, 255))
        if self.selected_obj_id:
            cv.FillPoly(cvim, [self.boxes[self.selected_obj_id]],
                        (0, 0, 255, 0.5))

        # display object names
        if self.object_centers_msg:
            for center, color, category in zip(
                    self.object_centers_msg.centers,
                    self.object_centers_msg.color_labels,
                    self.object_centers_msg.category_labels):
                cv.PutText(cvim, color + ' ' + category,
                           (center.pixel.x, center.pixel.y), self.font,
                           (0, 0, 255))

        # display trajector
        if self.trajector_location:
            cv.Circle(cvim,
                      self.trajector_location,
                      3, (255, 0, 0),
                      thickness=2,
                      lineType=cv.CV_AA,
                      shift=0)
            cv.PutText(cvim, 'trajector', self.trajector_location, self.font,
                       (255, 0, 0))

        # display selected landmark
        if self.meaning:
            lmk = self.meaning.args[0]

            p_arr = self.lmk_geo_to_img_geo(lmk)

            if isinstance(lmk.representation, PointRepresentation):
                cv.Circle(cvim,
                          tuple(map(int, p_arr[0])),
                          3, (0, 255, 0),
                          thickness=2,
                          lineType=cv.CV_AA,
                          shift=0)
            else:
                pl = [[tuple(map(int, l)) for l in p_arr]]
                cv.PolyLine(cvim, pl, True, (0, 255, 0), thickness=3)

        cv.ShowImage('img', cvim)
        cv.WaitKey(10)
コード例 #14
0
def draw_on_image(D):
    """Draws circles on image at points p1 and p2."""

    # Draw circles on the points you choose
    cv.Circle(D.range, D.p1, 12, D.white, thickness=1, lineType=8, shift=0)
    cv.Circle(D.range, D.p1, 10, D.black, thickness=1, lineType=8, shift=0)
    cv.Circle(D.range, D.p1, 8, D.white, thickness=1, lineType=8, shift=0)

    cv.Circle(D.range, D.p2, 12, D.white, thickness=1, lineType=8, shift=0)
    cv.Circle(D.range, D.p2, 10, D.black, thickness=1, lineType=8, shift=0)
    cv.Circle(D.range, D.p2, 8, D.white, thickness=1, lineType=8, shift=0)

    cv.Circle(D.range, D.p3, 12, D.white, thickness=1, lineType=8, shift=0)
    cv.Circle(D.range, D.p3, 10, D.black, thickness=1, lineType=8, shift=0)
    cv.Circle(D.range, D.p3, 8, D.white, thickness=1, lineType=8, shift=0)

    cv.Circle(D.range, D.p4, 12, D.white, thickness=1, lineType=8, shift=0)
    cv.Circle(D.range, D.p4, 10, D.black, thickness=1, lineType=8, shift=0)
    cv.Circle(D.range, D.p4, 8, D.white, thickness=1, lineType=8, shift=0)

    #Draw box for text display
    dx, dy = 5, 5  #Set up rectangle's position within window
    lower_left_x, lower_left_y = 20, 42

    #Display black border around box
    bord_upper_left = (lower_left_x - dx - 3, lower_left_y - dy - 20 - 3)
    bord_lower_right = (lower_left_x + dx + 120 + 3,
                        lower_left_y + dy + 50 + 3)
    cv.Rectangle(D.range, bord_upper_left, bord_lower_right, D.black,
                 cv.CV_FILLED)

    #Display white box
    rect_upper_left = (lower_left_x - dx, lower_left_y - dy - 20)
    rect_lower_right = (lower_left_x + dx + 120, lower_left_y + dy + 50)
    cv.Rectangle(D.range, rect_upper_left, rect_lower_right, D.white,
                 cv.CV_FILLED)

    #Calculate average depth
    avgDepth = (D.depth1 + D.depth2 + D.depth3 + D.depth4) / 4.0

    #Print text in info box
    value_string = ("Avg. Depth: %.1f" % avgDepth)  # formatted printing
    string_lower_left = (lower_left_x, lower_left_y)
    cv.PutText(D.range, value_string, string_lower_left, D.font, D.black)

    value_string3 = ("Y Angle %.1f" % D.yAngle)  # formatted printing
    string_lower_left3 = (lower_left_x, lower_left_y + 20)
    cv.PutText(D.range, value_string3, string_lower_left3, D.font, D.black)

    value_string4 = ("X Angle %.1f" % D.xAngle)  # formatted printing
    string_lower_left4 = (lower_left_x, lower_left_y + 40)
    cv.PutText(D.range, value_string4, string_lower_left4, D.font, D.black)
コード例 #15
0
def DrawText(img, font):
    global gp
    
    color = (64,128,255,1)

    message = "step = %f" % gp.step
    cv.PutText(img,message,(10,600),font,color)
    message = "x = %02.4f" % gp.x
    cv.PutText(img,message,(10,610),font,color)
    message = "y = %02.4f" % gp.y
    cv.PutText(img,message,(10,620),font,color)
    message = "z = %02.4f" % gp.z
    cv.PutText(img,message,(10,630),font,color)
コード例 #16
0
    def image_callback(self,data):
        """
        Callback for image topic subscription - finds blobs in image.
        """

        #t0 = rospy.Time.now()
        with self.lock:
            blobs_list, blobs_image = self.blobFinder.findBlobs(data, create_image=True)

        if len(blobs_list) == 2:

            # If two blobs are found computer the distance between them and
            # show it on the published image.
            x0 = blobs_list[0]['centroid_x']
            y0 = blobs_list[0]['centroid_y']
            x1 = blobs_list[1]['centroid_x']
            y1 = blobs_list[1]['centroid_y']
            point_list = [(x0,y0),(x1,y1)]
            dist = math.sqrt((x0-x1)**2 + (y0-y1)**2)
            message = 'dist = {0:1.1f} px'.format(dist)
            cv.PutText(blobs_image,message,(10,25),self.cv_text_font,self.text_color)

            ## Publish calibration progress image
            blobs_rosimage = self.bridge.cv_to_imgmsg(blobs_image,encoding="passthrough")
            self.image_pub.publish(blobs_rosimage)
        else:
            self.image_pub.publish(data)
コード例 #17
0
ファイル: tracking2.py プロジェクト: taoihsu/image_retreival
def display_tracking(img_size, img1, img2, img_flow, homography):
    for x in range(0, img_size[0], 100):
        for y in range(0, img_size[1], 100):
            cv.Circle(img1, (x, y), 3, (0, 255, 0, 0), -1, 8, 0)
            point = cv.CreateMat(3, 1, cv.CV_64F)
            point[0, 0] = x
            point[1, 0] = y
            point[2, 0] = 1
            newpoint = cv.CreateMat(3, 1, cv.CV_64F)
            cv.MatMul(homography, point, newpoint)
            cv.Circle(img2, (int(newpoint[0, 0]), int(newpoint[1, 0])), 3,
                      (0, 255, 0, 0), -1, 8, 0)
            cv.Line(img_flow, (x, y),
                    (int(newpoint[0, 0]), int(newpoint[1, 0])),
                    cv.CV_RGB(255, 0, 0), 2)
    cv.Rectangle(img_flow, (0, 0), (150, 25), cv.CV_RGB(0, 0, 0), thickness=-1)
    cv.PutText(
        img_flow, "Good?: " + str(isHomographyGood(homography)), (0, 20),
        cv.InitFont(cv.CV_FONT_HERSHEY_SIMPLEX, 0.75, 0.75, thickness=2),
        cv.CV_RGB(255, 255, 255))
    cv.NamedWindow("Image1", 0)
    cv.NamedWindow("Image2", 0)
    cv.NamedWindow("Flow", 0)
    cv.ResizeWindow("Image1", int(0.5 * img_size[0]), int(0.5 * img_size[1]))
    cv.ResizeWindow("Image2", int(0.5 * img_size[0]), int(0.5 * img_size[1]))
    cv.ResizeWindow("Flow", int(0.5 * img_size[0]), int(0.5 * img_size[1]))
    cv.ShowImage("Image1", img1)
    cv.ShowImage("Image2", img2)
    cv.ShowImage("Flow", img_flow)
    cv.WaitKey(0)
コード例 #18
0
class test_vision_node:
    def __init__(self):
        rospy.init_node('test_vision_node')
        """ Give the OpenCV display window a name. """
        self.cv_window_name = "OpenCV Image"
        """ Create the window and make it re-sizeable (second parameter = 0) """
        cv.NamedWindow(self.cv_window_name, 0)
        """ Create the cv_bridge object """
        self.bridge = CvBridge()
        """ Subscribe to the raw camera image topic """
        self.image_sub = rospy.Subscriber("/camera/image_raw", Image,
                                          self.callback)

    def callback(self, data):
        try:
            """ Convert the raw image to OpenCV format """
            cv_image = self.bridge.imgmsg_to_cv(data, "bgr8")
        except CvBridgeError, e:
            print e
        """ Get the width and height of the image """
        (width, height) = cv.GetSize(cv_image)
        """ Overlay some text onto the image display """
        text_font = cv.InitFont(cv.CV_FONT_HERSHEY_DUPLEX, 2, 2)
        cv.PutText(cv_image, "OpenCV Image", (50, height / 2), text_font,
                   cv.RGB(255, 255, 0))
        """ Refresh the image on the screen """
        cv.ShowImage(self.cv_window_name, cv_image)
        cv.WaitKey(3)
コード例 #19
0
    def pick_and_place(self):
        print "30 pick_and_place"

        n_piece = 0
        while True and n_piece < 1:
            n_piece += 1
            iteration = 0
            angle = 0.0

            # use Hough circles to find pieces and select one piece
            # "go to 19"
            next_piece, angle = self.hough_it(n_piece, iteration)

            error = 2 * self.piece_tolerance

            print
            print "Square number ", n_piece
            print "==============="

            # iterate to find next chess piece
            # if hunting to and fro accept error in position
            while error > self.piece_tolerance and iteration < 100:
                iteration += 1
                next_piece, angle, error = self.chess_piece_iterate(
                    n_piece, iteration, next_piece)

            font = cv.InitFont(cv.CV_FONT_HERSHEY_SIMPLEX, 1.0, 1.0, 1)
            position = (30, 60)
            s = "Tomando Piezas de ajedrez"
            cv.PutText(cv.fromarray(self.cv_image), s, position, font,
                       self.white)
            msg = cv_bridge.CvBridge().cv2_to_imgmsg(self.cv_image,
                                                     encoding="bgr8")
            self.pub.publish(msg)
コード例 #20
0
 def log(self, text=None, frame=None):
     if self.measureDisplay:
         if text is None or text == "reset" or text == "init":
             if frame is not None and self.saveSamples:
                 file = "/tmp/photo" + "-" + datetime.datetime.now(
                 ).strftime("%Y%m%d%H%M%S%f") + "-" + "init" + ".png"
                 cv.SaveImage(file, frame)
             self.measure_init = datetime.datetime.now()
             self.measure_next = self.measure_init
             print "\nStart getting Samples.."
         else:
             if text != "end":
                 measure_now = datetime.datetime.now()
                 diff = measure_now - self.measure_next
                 print "\tSample: %s - %s micros" % (text,
                                                     str(diff.microseconds))
                 if frame is not None and self.saveSamples:
                     file = "/tmp/photo" + "-" + datetime.datetime.now(
                     ).strftime("%Y%m%d%H%M%S%f") + "-" + text + ".png"
                     cv.SaveImage(file, frame)
                 self.measure_next = datetime.datetime.now()
             else:
                 measure_now = datetime.datetime.now()
                 diff = measure_now - self.measure_init
                 print "Last Sample: %s micros" % (str(diff.microseconds))
                 if frame is not None and self.saveSamples:
                     cv.PutText(
                         frame, "Sample: " + time.strftime(
                             "%d-%m-%Y %H:%M:%S", time.localtime()) +
                         "-end", (10, cv.GetSize(frame)[1] - 10),
                         cv.InitFont(cv.CV_FONT_HERSHEY_COMPLEX, .3, .3,
                                     0.0, 1, cv.CV_AA), (255, 255, 255))
                     cv.SaveImage(file, frame)
コード例 #21
0
    def getHsvRange(self):
        self.x_co = 0
        self.y_co = 0

        cv.NamedWindow('camera feed', cv.CV_WINDOW_AUTOSIZE)
        capture = cv.CaptureFromCAM(1)

        font = cv.InitFont(cv.CV_FONT_HERSHEY_SIMPLEX, 0.5, 1, 0, 2, 8)

        while True:
            src = cv.QueryFrame(capture)
            #            src = cv.LoadImage('2012_automata.jpg')
            cv.Smooth(src, src, cv.CV_BLUR, 3)
            hsv = cv.CreateImage(cv.GetSize(src), src.depth, 3)
            cv.CvtColor(src, hsv, cv.CV_BGR2HSV)
            cv.SetMouseCallback("camera feed", self.on_mouse, 0)
            s = cv.Get2D(hsv, self.y_co, self.x_co)
            #        print "H:", s[0], "      S:", s[1], "       V:", s[2]
            cv.PutText(src,
                       str(s[0]) + "," + str(s[1]) + "," + str(s[2]),
                       (self.x_co, self.y_co), font, (55, 25, 255))
            cv.ShowImage("camera feed", src)
            if cv.WaitKey(10) == 27:
                return (s[0], s[1], s[2])
                break
コード例 #22
0
def main():
    while True:
        cv.NamedWindow('a_window', cv.CV_WINDOW_AUTOSIZE)
        #logfiles = sorted([ f for f in os.listdir(report_dirName) if f.startswith('image')])
        #logfiles=GetLatestArchive('image*.jpg')
        latest_folder = report_dirName + latest_file(name_start='Z',
                                                     name_end='') + '\\'
        image = cv.LoadImage(
            latest_folder +
            latest_file(path=latest_folder, name_start='Z', name_end='.tif'),
            cv.CV_LOAD_IMAGE_COLOR)  # .jpg images are 4x times smaller
        #img = cv2.imread(latest_folder+latest_file(path=latest_folder, name_start='', name_end='.tif'))
        #gray = cv2.cvtColor(img,cv2.COLOR_BGR2GRAY)
        #img2=cv2.equalizeHist(gray)
        #cvmat_img2=cv.fromarray(img2)
        font = cv.InitFont(cv.CV_FONT_HERSHEY_SIMPLEX, 1, 1, 0, 3, 8)
        newFrameImage8U = cv.CreateImage((image.width, image.height),
                                         cv.IPL_DEPTH_8U,
                                         3)  # optional convert to 8U
        cv.ConvertScale(image, newFrameImage8U)  # optional
        image = newFrameImage8U  # optional
        cv.PutText(image, "Counter:", (x, y), font, 255)  #Draw the text
        #cv.PutText(cvmat_img2,"Counter:", (x,y),font, 255)
        cv.ShowImage('a_window', image)  #Show the image
        #cv.Waitkey(10000)
        # open the latest xml-file in this folder and get the stage coordinates (x,y,z)
        (stage_x, stage_y, stage_z) = return_xyz_coordinates(
            latest_folder +
            latest_file(path=latest_folder, name_start='', name_end='.xml'))
        print 'stage coordinates x,y,z:', stage_x, stage_y, stage_z
        if cv.WaitKey(10) == 27:
            break
    cv.DestroyWindow("a_window")
コード例 #23
0
ファイル: gui.py プロジェクト: sdp-2011/sdp-9
    def draw_ent(self, ent):
        if not ent: return
        x, y = intPoint(ent.pos)
        radius = 30
        #cv.Circle(self.image, intPoint((x,y)), 8, color, -1)

        o = ent.orientation
        D = 30
        cv.Circle(self.image, intPoint((x + D * cos(o), y + D * sin(o))), 6,
                  (200, 200, 200), -1)

        # Draw estimated robot boundaries
        points = ent.points
        for p1, p2 in zip(points[1:] + points[:1], points[:-1] + points[-1:]):
            cv.Line(self.image, intPoint(p1), intPoint(p2), (200, 200, 0), 1,
                    cv.CV_AA)
            cv.Circle(self.image, intPoint(p1), 2, (255, 255, 100), -1)

        if ent.text is not None:
            x, y = (x - 42, y + 42)
            for i, line in enumerate(ent.text):
                cv.PutText(self.image, line, (x, y + 12 * i), self.Font,
                           (0, 200, 200))
        if ent.target is not None:
            cv.Line(self.image, intPoint(ent.pos), intPoint(ent.target),
                    (180, 0, 180), 1, cv.CV_AA)
コード例 #24
0
def showWindow(message):
    print message
    print "  [press any key to continue]"
    font = cv.InitFont(cv.CV_FONT_HERSHEY_SIMPLEX, 0.5, 0.5)
    cv.PutText(image, message, (10, 20), font, cv.RGB(150, 150, 150))
    cv.ShowImage('window', image)
    cv.WaitKey(10000)
コード例 #25
0
    def paint_estimates(self, img):
        "paints the camera estimates"
        circles = []
        if 'cam1' in self._draw_estimates:
            cv.Circle(img, self.cam1_estimate, 10, kc.cam1color, -1)
            cv.Line(img, self.cam1_estimate, self.cam1center, kc.cam1color, 1, cv.CV_AA)
            circles.append({'color':kc.cam1color, 'text':'Camera 1'})

        if 'cam2' in self._draw_estimates:
            cv.Circle(img, self.cam2_estimate, 10, kc.cam2color, -1)
            cv.Line(img, self.cam2_estimate, self.cam2center, kc.cam2color, 1, cv.CV_AA)
            circles.append({'color':kc.cam2color, 'text':'Camera 2'})

        # cv.Circle(img, self.cam3_estimate, 10, kc.cam3color, -1)
        # cv.Line(img, self.cam3_estimate, self.cam3center, kc.cam3color, 1, cv.CV_AA)

        if 'kalman' in self._draw_estimates:
            cv.Circle(img, self.kalman_estimate, 10, kc.kalmancolor, -1)
            circles.append({'color':kc.kalmancolor, 'text':'Kalman'})

        if 'average' in self._draw_estimates:
            cv.Circle(img, self.average_estimate, 10, kc.averagecolor, -1)
            circles.append({'color':kc.averagecolor, 'text':'Average'})

        circles.reverse()
        for cnt,c in enumerate(circles):
            yloc = kc.img_size[1] - 20 - cnt*25
            cloc = (200, yloc)
            cv.Circle(img, cloc, 10, c['color'], -1)
            tloc = (220, yloc+5)
            cv.PutText(img, c['text'], tloc, self._font, kc.font_color)
コード例 #26
0
 def generate(ident, sp=SQ_SIZE):
     size = (Square.GRID_SIZE + 4) * sp
     img = cv.CreateImage((size, size), 8, 1)
     rim = [(0, 0), (size, 0), (size, size), (0, size)]
     border = [(sp, sp), (size - sp, sp), (size - sp, size - sp),
               (sp, size - sp)]
     inside = [(sp * 2, sp * 2), (sp * 5, sp * 2), (sp * 5, sp * 5),
               (sp * 2, sp * 5)]
     square = lambda (x, y): [((2 + x) * sp, (2 + y) * sp),
                              ((3 + x) * sp, (2 + y) * sp),
                              ((3 + x) * sp, (3 + y) * sp),
                              ((2 + x) * sp, (3 + y) * sp)]
     corners = [square((0, 0))]
     #square(size-sp*2,sp*2),
     #square(size-sp*2,size-sp*2), square(sp*2,size-sp*2)]
     code = []
     id = ident
     for p in Square.code_points:
         if ident % 2 == 0: code.append(square(p))
         ident /= 2
     cv.FillPoly(img, [rim], (255, 255, 255))
     cv.FillPoly(img, [border], (0, 0, 0))
     cv.FillPoly(img, [inside], (255, 255, 255))
     cv.FillPoly(img, corners + code, (0, 0, 0))
     font = cv.InitFont(cv.CV_FONT_HERSHEY_COMPLEX_SMALL, 0.7, 0.7)
     cv.PutText(img, "%d" % id, (0, 15), font, (50, 50, 50))
     return img
コード例 #27
0
 def show_velocity(self, value, valspan, label, y):
     cv.PutText(self.image, label+':', (SENSOR_TEXT_X, y), self.font, SENSOR_LABEL_COLOR_BGR) 
     bar_x1 = SENSOR_BAR_X + SENSOR_BAR_MAX_HEIGHT
     bar_y1 = y + SENSOR_BAR_Y_OFFSET
     bar_x2 = bar_x1 + int(value / valspan * SENSOR_BAR_MAX_HEIGHT)
     bar_y2 = y - SENSOR_BAR_WIDTH + SENSOR_BAR_Y_OFFSET
     bar_color = SENSOR_NEGATIVE_COLOR_BGR if value < 0 else SENSOR_POSITIVE_COLOR_BGR
     cv.Rectangle(self.image, (bar_x1, bar_y1), (bar_x2, bar_y2), bar_color, cv.CV_FILLED) 
コード例 #28
0
ファイル: drill-eye.py プロジェクト: debuggerboy/pcb-drill
 def draw_info(self):
     cv.PutText(
         self.image, "X-Offset: %s Y-Offset: %s Size: %s Stretch: %s" % (
             self.xoffset,
             self.yoffset,
             self.dia,
             self.stretch,
         ), (10, 15), self.cvfont, cv.RGB(255, 255, 255))
コード例 #29
0
ファイル: cameracalibrator.py プロジェクト: Jykkis/atv
    def redraw_stereo(self, drawable):
        width, height = cv.GetSize(drawable.lscrib)

        display = cv.CreateMat(max(480, height), 2 * width + 100, cv.CV_8UC3)
        cv.Zero(display)
        cv.Copy(drawable.lscrib, cv.GetSubRect(display, (0, 0, width, height)))
        cv.Copy(drawable.rscrib,
                cv.GetSubRect(display, (width, 0, width, height)))
        cv.Set(cv.GetSubRect(display, (2 * width, 0, 100, height)),
               (255, 255, 255))

        self.buttons(display)

        if not self.c.calibrated:
            if drawable.params:
                for i, (label, lo, hi, progress) in enumerate(drawable.params):
                    (w, _), _ = cv.GetTextSize(label, self.font)
                    cv.PutText(display, label,
                               (2 * width + (100 - w) / 2, self.y(i)),
                               self.font, (0, 0, 0))
                    color = (0, 255, 0)
                    if progress < 1.0:
                        color = (0, int(progress * 255.), 255)
                    cv.Line(display,
                            (int(2 * width + lo * 100), self.y(i) + 20),
                            (int(2 * width + hi * 100), self.y(i) + 20), color,
                            4)

        else:
            cv.PutText(display, "epi.", (2 * width, self.y(0)), self.font,
                       (0, 0, 0))
            if drawable.epierror == -1:
                msg = "?"
            else:
                msg = "%.2f" % drawable.epierror
            cv.PutText(display, msg, (2 * width, self.y(1)), self.font,
                       (0, 0, 0))
            # TODO dim is never set anywhere. Supposed to be observed chessboard size?
            if drawable.dim != -1:
                cv.PutText(display, "dim", (2 * width, self.y(2)), self.font,
                           (0, 0, 0))
                cv.PutText(display, "%.3f" % drawable.dim,
                           (2 * width, self.y(3)), self.font, (0, 0, 0))

        self.show(display)
コード例 #30
0
def draw_on_image(D):
    """Displays an info box and necessary text in the image window."""
    #Set up rectangle's position within window
    lower_left_x = 20
    lower_left_y = 42
    dx = 5
    dy = 5

    #Display border for rectangle
    #Border is a black rectangle under white text rectangle
    bord_upper_left = (lower_left_x - dx - 3, lower_left_y - dy - 20 - 3)
    bord_lower_right = (lower_left_x + dx + 160 + 3,
                        lower_left_y + dy + 50 + 3)
    cv.Rectangle(D.image, bord_upper_left, bord_lower_right, D.black,
                 cv.CV_FILLED)

    #Display white rectangle under text
    rect_upper_left = (lower_left_x - dx, lower_left_y - dy - 20)
    rect_lower_right = (lower_left_x + dx + 160, lower_left_y + dy + 50)
    cv.Rectangle(D.image, rect_upper_left, rect_lower_right, D.white,
                 cv.CV_FILLED)

    # Build Strings
    targetA = ("Target Area: %.lf" % D.target_size)
    targetCoords = ("Distance: %.lf " % 4)
    state = ("Current State: " + R.curState)

    # Position strings in a box so they won't overlap
    firstLineString = (lower_left_x, lower_left_y)
    secondLineString = (lower_left_x, lower_left_y + 20)
    thirdLineString = (lower_left_x, lower_left_y + 40)
    #desiredHeading = ("Des: %.2f" % desHeadVar)
    cv.PutText(D.image, targetA, firstLineString, D.font, cv.RGB(0, 0, 255))
    cv.PutText(D.image, targetCoords, secondLineString, D.font,
               cv.RGB(0, 0, 255))
    cv.PutText(D.image, state, thirdLineString, D.font, cv.RGB(0, 0, 255))

    #cv.PutText(D.image, desiredHeading, thirdLineString, D.font, cv.RGB(0,0,255))

    cv.Circle(D.image, (320, 240),
              10,
              cv.RGB(255, 0, 0),
              thickness=1,
              lineType=8,
              shift=0)