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trackgesture.py
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trackgesture.py
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# -*- coding: utf-8 -*-
"""
Created on Thu Mar 23 01:01:43 2017
@author: abhisheksingh
"""
#%%
import cv2
import numpy as np
import os
import time
import threading
import gestureCNN as myNN
minValue = 70
x0 = 400
y0 = 200
height = 200
width = 200
saveImg = False
guessGesture = False
visualize = False
kernel = np.ones((15,15),np.uint8)
kernel2 = np.ones((1,1),np.uint8)
skinkernel = cv2.getStructuringElement(cv2.MORPH_ELLIPSE,(5,5))
# Which mask mode to use BinaryMask, SkinMask (True|False) OR BkgrndSubMask ('x' key)
binaryMode = True
bkgrndSubMode = False
mask = 0
bkgrnd = 0
counter = 0
# This parameter controls number of image samples to be taken PER gesture
numOfSamples = 301
gestname = ""
path = ""
mod = 0
banner = '''\nWhat would you like to do ?
1- Use pretrained model for gesture recognition & layer visualization
2- Train the model (you will require image samples for training under .\imgfolder)
3- Visualize feature maps of different layers of trained model
4- Exit
'''
#%%
def saveROIImg(img):
global counter, gestname, path, saveImg
if counter > (numOfSamples - 1):
# Reset the parameters
saveImg = False
gestname = ''
counter = 0
return
counter = counter + 1
name = gestname + str(counter)
print("Saving img:",name)
cv2.imwrite(path+name + ".png", img)
time.sleep(0.04 )
#%%
def skinMask(frame, x0, y0, width, height, framecount, plot):
global guessGesture, visualize, mod, saveImg
# HSV values
low_range = np.array([0, 50, 80])
upper_range = np.array([30, 200, 255])
cv2.rectangle(frame, (x0,y0),(x0+width,y0+height),(0,255,0),1)
#roi = cv2.UMat(frame[y0:y0+height, x0:x0+width])
roi = frame[y0:y0+height, x0:x0+width]
hsv = cv2.cvtColor(roi, cv2.COLOR_BGR2HSV)
#Apply skin color range
mask = cv2.inRange(hsv, low_range, upper_range)
mask = cv2.erode(mask, skinkernel, iterations = 1)
mask = cv2.dilate(mask, skinkernel, iterations = 1)
#blur
mask = cv2.GaussianBlur(mask, (15,15), 1)
#bitwise and mask original frame
res = cv2.bitwise_and(roi, roi, mask = mask)
# color to grayscale
res = cv2.cvtColor(res, cv2.COLOR_BGR2GRAY)
if saveImg == True:
saveROIImg(res)
elif guessGesture == True and (framecount % 5) == 4:
#res = cv2.UMat.get(res)
t = threading.Thread(target=myNN.guessGesture, args = [mod, res])
t.start()
elif visualize == True:
layer = int(input("Enter which layer to visualize "))
cv2.waitKey(0)
myNN.visualizeLayers(mod, res, layer)
visualize = False
return res
#%%
def binaryMask(frame, x0, y0, width, height, framecount, plot ):
global guessGesture, visualize, mod, saveImg
cv2.rectangle(frame, (x0,y0),(x0+width,y0+height),(0,255,0),1)
#roi = cv2.UMat(frame[y0:y0+height, x0:x0+width])
roi = frame[y0:y0+height, x0:x0+width]
gray = cv2.cvtColor(roi, cv2.COLOR_BGR2GRAY)
blur = cv2.GaussianBlur(gray,(5,5),2)
th3 = cv2.adaptiveThreshold(blur,255,cv2.ADAPTIVE_THRESH_GAUSSIAN_C,cv2.THRESH_BINARY_INV,11,2)
ret, res = cv2.threshold(th3, minValue, 255, cv2.THRESH_BINARY_INV+cv2.THRESH_OTSU)
if saveImg == True:
saveROIImg(res)
elif guessGesture == True and (framecount % 5) == 4:
#ores = cv2.UMat.get(res)
t = threading.Thread(target=myNN.guessGesture, args = [mod, res])
t.start()
elif visualize == True:
layer = int(input("Enter which layer to visualize "))
cv2.waitKey(1)
myNN.visualizeLayers(mod, res, layer)
visualize = False
return res
#%%
# This is the new mask mode. It simply tries to remove the background content by taking a image of the
# background and subtracts it from the new frame contents of the ROI window.
# So in order to use it correctly, keep the contents of ROI window stable and without your hand in it
# and then press 'x' key. If you can see the contents of ROI window all blank then it means you are
# good to go for gesture prediction
def bkgrndSubMask(frame, x0, y0, width, height, framecount, plot):
global guessGesture, takebkgrndSubMask, visualize, mod, bkgrnd, saveImg
cv2.rectangle(frame, (x0,y0),(x0+width,y0+height),(0,255,0),1)
roi = frame[y0:y0+height, x0:x0+width]
#roi = cv2.UMat(frame[y0:y0+height, x0:x0+width])
roi = cv2.cvtColor(roi, cv2.COLOR_BGR2GRAY)
#Take background image
if takebkgrndSubMask == True:
bkgrnd = roi
takebkgrndSubMask = False
print("Refreshing background image for mask...")
#Take a diff between roi & bkgrnd image contents
diff = cv2.absdiff(roi, bkgrnd)
_, diff = cv2.threshold(diff, 25, 255, cv2.THRESH_BINARY)
mask = cv2.GaussianBlur(diff, (3,3), 5)
mask = cv2.erode(diff, skinkernel, iterations = 1)
mask = cv2.dilate(diff, skinkernel, iterations = 1)
res = cv2.bitwise_and(roi, roi, mask = mask)
if saveImg == True:
saveROIImg(res)
elif guessGesture == True and (framecount % 5) == 4:
t = threading.Thread(target=myNN.guessGesture, args = [mod, res])
t.start()
#t.join()
#myNN.update(plot)
elif visualize == True:
layer = int(input("Enter which layer to visualize "))
cv2.waitKey(0)
myNN.visualizeLayers(mod, res, layer)
visualize = False
return res
#%%
def Main():
global guessGesture, visualize, mod, binaryMode, bkgrndSubMode, mask, takebkgrndSubMask, x0, y0, width, height, saveImg, gestname, path
quietMode = False
font = cv2.FONT_HERSHEY_SIMPLEX
size = 0.5
fx = 10
fy = 350
fh = 18
#Call CNN model loading callback
while True:
ans = int(input( banner))
if ans == 1:
mod = myNN.loadCNN()
break
elif ans == 2:
mod = myNN.loadCNN(True)
myNN.trainModel(mod)
input("Press any key to continue")
break
elif ans == 3:
if not mod:
mod = myNN.loadCNN()
else:
print("Will load default weight file")
myNN.visualizeLayers(mod)
input("Press any key to continue")
continue
else:
print("Get out of here!!!")
return 0
## Grab camera input
cap = cv2.VideoCapture(0)
cv2.namedWindow('Original', cv2.WINDOW_NORMAL)
# set rt size as 640x480
ret = cap.set(3,640)
ret = cap.set(4,480)
framecount = 0
fps = ""
start = time.time()
plot = np.zeros((512,512,3), np.uint8)
while(True):
ret, frame = cap.read()
max_area = 0
frame = cv2.flip(frame, 3)
frame = cv2.resize(frame, (640,480))
if ret == True:
if bkgrndSubMode == True:
roi = bkgrndSubMask(frame, x0, y0, width, height, framecount, plot)
elif binaryMode == True:
roi = binaryMask(frame, x0, y0, width, height, framecount, plot)
else:
roi = skinMask(frame, x0, y0, width, height, framecount, plot)
framecount = framecount + 1
end = time.time()
timediff = (end - start)
if( timediff >= 1):
#timediff = end - start
fps = 'FPS:%s' %(framecount)
start = time.time()
framecount = 0
cv2.putText(frame,fps,(10,20), font, 0.7,(0,255,0),2,1)
cv2.putText(frame,'Options:',(fx,fy), font, 0.7,(0,255,0),2,1)
cv2.putText(frame,'b - Toggle Binary/SkinMask',(fx,fy + fh), font, size,(0,255,0),1,1)
cv2.putText(frame,'x - Toggle Background Sub Mask',(fx,fy + 2*fh), font, size,(0,255,0),1,1)
cv2.putText(frame,'g - Toggle Prediction Mode',(fx,fy + 3*fh), font, size,(0,255,0),1,1)
cv2.putText(frame,'q - Toggle Quiet Mode',(fx,fy + 4*fh), font, size,(0,255,0),1,1)
cv2.putText(frame,'n - To enter name of new gesture folder',(fx,fy + 5*fh), font, size,(0,255,0),1,1)
cv2.putText(frame,'s - To start capturing new gestures for training',(fx,fy + 6*fh), font, size,(0,255,0),1,1)
cv2.putText(frame,'ESC - Exit',(fx,fy + 7*fh), font, size,(0,255,0),1,1)
## If enabled will stop updating the main openCV windows
## Way to reduce some processing power :)
if not quietMode:
cv2.imshow('Original',frame)
cv2.imshow('ROI', roi)
if guessGesture == True:
plot = np.zeros((512,512,3), np.uint8)
plot = myNN.update(plot)
cv2.imshow('Gesture Probability',plot)
#plot = np.zeros((512,512,3), np.uint8)
############## Keyboard inputs ##################
key = cv2.waitKey(5) & 0xff
## Use Esc key to close the program
if key == 27:
break
## Use b key to toggle between binary threshold or skinmask based filters
elif key == ord('b'):
binaryMode = not binaryMode
bkgrndSubMode = False
if binaryMode:
print("Binary Threshold filter active")
else:
print("SkinMask filter active")
## Use x key to use and refresh Background SubMask filter
elif key == ord('x'):
takebkgrndSubMask = True
bkgrndSubMode = True
print("BkgrndSubMask filter active")
## Use g key to start gesture predictions via CNN
elif key == ord('g'):
guessGesture = not guessGesture
print("Prediction Mode - {}".format(guessGesture))
## This option is not yet complete. So disabled for now
## Use v key to visualize layers
#elif key == ord('v'):
# visualize = True
## Use i,j,k,l to adjust ROI window
elif key == ord('i'):
y0 = y0 - 5
elif key == ord('k'):
y0 = y0 + 5
elif key == ord('j'):
x0 = x0 - 5
elif key == ord('l'):
x0 = x0 + 5
## Quiet mode to hide gesture window
elif key == ord('q'):
quietMode = not quietMode
print("Quiet Mode - {}".format(quietMode))
## Use s key to start/pause/resume taking snapshots
## numOfSamples controls number of snapshots to be taken PER gesture
elif key == ord('s'):
saveImg = not saveImg
if gestname != '':
saveImg = True
else:
print("Enter a gesture group name first, by pressing 'n'")
saveImg = False
## Use n key to enter gesture name
elif key == ord('n'):
gestname = input("Enter the gesture folder name: ")
try:
os.makedirs(gestname)
except OSError as e:
# if directory already present
if e.errno != 17:
print('Some issue while creating the directory named -' + gestname)
path = "./"+gestname+"/"
#elif key != 255:
# print key
#Realse & destroy
cap.release()
cv2.destroyAllWindows()
if __name__ == "__main__":
Main()