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DoG.py
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DoG.py
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#####################################################################
# Example : Difference of Gaussian (DoG) of a video file
# specified on the command line (e.g. python FILE.py video_file) or from an
# attached web camera
# Author : Toby Breckon, [email protected]
# Copyright (c) 2017-2019 Dept. Engineering & Dept. Computer Science,
# Durham University, UK
# License : LGPL - http://www.gnu.org/licenses/lgpl.html
#####################################################################
import cv2
import argparse
import sys
#####################################################################
keep_processing = True
# parse command line arguments for camera ID or video file
parser = argparse.ArgumentParser(
description='Perform ' +
sys.argv[0] +
' example operation on incoming camera/video image')
parser.add_argument(
"-c",
"--camera_to_use",
type=int,
help="specify camera to use",
default=0)
parser.add_argument(
"-r",
"--rescale",
type=float,
help="rescale image by this factor",
default=1.0)
parser.add_argument("-i", "--is_image", action='store_true',
help="specify file is an image, not a video")
parser.add_argument(
'video_file',
metavar='file',
type=str,
nargs='?',
help='specify optional video file')
args = parser.parse_args()
#####################################################################
# this function is called as a call-back everytime the trackbar is moved
# (here we just do nothing)
def nothing(x):
pass
#####################################################################
# define video capture object
try:
# to use a non-buffered camera stream (via a separate thread)
if not (args.video_file):
import camera_stream
cap = camera_stream.CameraVideoStream(use_tapi=True)
else:
cap = cv2.VideoCapture() # not needed for video files
except BaseException:
# if not then just use OpenCV default
print("INFO: camera_stream class not found - camera input may be buffered")
cap = cv2.VideoCapture()
# define display window name
window_name = "Live Camera Input" # window name
window_nameU = "Gaussian Upper" # window name
window_nameL = "Gaussian Lower" # window name
window_nameDoG = "DoG" # window name
# if command line arguments are provided try to read video_name
# otherwise default to capture from attached H/W camera
if (((args.video_file) and (cap.open(str(args.video_file))))
or (cap.open(args.camera_to_use))):
# create window by name (as resizable)
cv2.namedWindow(window_name, cv2.WINDOW_NORMAL)
cv2.namedWindow(window_nameL, cv2.WINDOW_NORMAL)
cv2.namedWindow(window_nameU, cv2.WINDOW_NORMAL)
cv2.namedWindow(window_nameDoG, cv2.WINDOW_NORMAL)
# add some track bar controllers for settings
sigmaU = 2 # greater than 7 seems to crash
cv2.createTrackbar("sigma U", window_nameU, sigmaU, 15, nothing)
sigmaL = 1 # greater than 7 seems to crash
cv2.createTrackbar("sigma L", window_nameL, sigmaL, 15, nothing)
while (keep_processing):
# if video file successfully open then read frame from video
if (cap.isOpened):
ret, frame = cap.read()
# when we reach the end of the video (file) exit cleanly
if (ret == 0):
keep_processing = False
continue
# rescale if specified
if (args.rescale != 1.0):
frame = cv2.resize(
frame, (0, 0), fx=args.rescale, fy=args.rescale)
# if it is a still image, load that instead
if (args.is_image):
frame = cv2.imread(args.video_file, cv2.IMREAD_COLOR)
# get parameters from track bars
sigmaU = cv2.getTrackbarPos("sigma U", window_nameU)
sigmaL = cv2.getTrackbarPos("sigma L", window_nameL)
# check sigma's are greater than 1
sigmaU = max(1, sigmaU)
sigmaL = max(1, sigmaL)
# check sigma are correct
if (sigmaL >= sigmaU) and (sigmaU > 1):
sigmaL = sigmaU - 1
print("auto-correcting sigmas such that U > L")
# convert to grayscale
gray_frame = cv2.cvtColor(frame, cv2.COLOR_BGR2GRAY)
# performing smoothing on the image using a smoothing mask
# specify 0x0 mask size then size is auto-computed from the sigma
# values
smoothedU = cv2.GaussianBlur(gray_frame, (0, 0), sigmaU)
smoothedL = cv2.GaussianBlur(gray_frame, (0, 0), sigmaL)
# perform abs_diff() to get DoG
DoG = cv2.absdiff(smoothedU, smoothedL)
# auto-scale to full 0 -> 255 range for display
cv2.normalize(DoG, DoG, 0, 255, cv2.NORM_MINMAX)
# display image
cv2.imshow(window_name, frame)
cv2.imshow(window_nameU, smoothedU)
cv2.imshow(window_nameL, smoothedL)
cv2.imshow(window_nameDoG, DoG)
# start the event loop - essential
# cv2.waitKey() is a keyboard binding function (argument is the time in
# ms). It waits for specified milliseconds for any keyboard event.
# If you press any key in that time, the program continues.
# If 0 is passed, it waits indefinitely for a key stroke.
# (bitwise and with 0xFF to extract least significant byte of
# multi-byte response)
# wait 40ms (i.e. 1000ms / 25 fps = 40 ms)
key = cv2.waitKey(40) & 0xFF
# It can also be set to detect specific key strokes by recording which
# key is pressed
# e.g. if user presses "x" then exit
# e.g. if user presses "x" then exit / press "f" for fullscreen
# display
if (key == ord('x')):
keep_processing = False
elif (key == ord('f')):
cv2.setWindowProperty(
window_nameDoG,
cv2.WND_PROP_FULLSCREEN,
cv2.WINDOW_FULLSCREEN)
# close all windows
cv2.destroyAllWindows()
else:
print("No video file specified or camera connected.")
#####################################################################