def straight():
## if random.randrange(4) == 2:
## ReleaseKey(W)
## else:
PressKey(W)
ReleaseKey(A)
ReleaseKey(D)
print("Driver is Moving Stright")
def right():
PressKey(W)
PressKey(D)
ReleaseKey(A)
# ReleaseKey(W)
# ReleaseKey(D)
time.sleep(t_time)
ReleaseKey(D)
print("Driver is Moving right")
def left():
PressKey(W)
PressKey(A)
# ReleaseKey(W)
ReleaseKey(D)
# ReleaseKey(A)
time.sleep(t_time)
ReleaseKey(A)
print("Driver is Moving left")
def FrontFrameCapture():
# --------------------------------------- Front Frame ----------------------------------------------------------
# get The Screen window
Fhwnd = win32gui.GetDesktopWindow()
FwDC = win32gui.GetWindowDC(Fhwnd)
# create DC object for
FdcObj = win32ui.CreateDCFromHandle(FwDC)
FcDC = FdcObj.CreateCompatibleDC()
# bitmapping The captured Frame
FdataBitMap = win32ui.CreateBitmap()
FdataBitMap.CreateCompatibleBitmap(FdcObj, w, h)
# Cropping Window
FcDC.SelectObject(FdataBitMap)
FcDC.BitBlt((0, 0), (w, h), FdcObj, (0, 30), win32con.SRCCOPY)
# dataBitMap.SaveBitmapFile(cDC, 'Test.jpg')
bmpinfo = FdataBitMap.GetInfo()
bmpstr = FdataBitMap.GetBitmapBits(True)
im1 = Image.frombuffer('RGB', (bmpinfo['bmWidth'], bmpinfo['bmHeight']),
bmpstr, 'raw', 'BGRX', 0, 1)
Front = np.array(im1)
Front = cv2.cvtColor(Front, cv2.COLOR_BGR2RGB)
PressKey(ChangeView)
time.sleep(delay)
ReleaseKey(ChangeView)
# time.sleep(0.0000000000000001)
# Cleaning Some memory (Avoid Exception)
FdcObj.DeleteDC()
FcDC.DeleteDC()
win32gui.ReleaseDC(Fhwnd, FwDC)
win32gui.DeleteObject(FdataBitMap.GetHandle())
return Front
def main():
last_time = time.time()
for i in list(range(5))[::-1]:
print("Your Testing Neural Network will start in : " + str(i + 1))
time.sleep(1)
paused = False
while (True):
if not paused:
# 800x600 windowed mode
# screen = np.array(ImageGrab.grab(bbox=(0,40,800,640)))
screen = Eyes.FrontFrameCapture()
# print('loop took {} seconds'.format(time.time() - last_time))
# last_time = time.time()
screen = cv2.cvtColor(screen, cv2.COLOR_BGR2GRAY)
screen = cv2.resize(screen, (160, 120))
prediction = model.predict([screen.reshape(160, 120, 1)])[0]
print(prediction)
turn_thresh = .90
fwd_thresh = 0.40
if prediction[1] > fwd_thresh:
straight()
elif prediction[0] > turn_thresh:
left()
elif prediction[2] > turn_thresh:
right()
else:
straight()
keys = key_check()
# p pauses game and can get annoying.
if 'T' in keys:
if paused:
paused = False
time.sleep(1)
else:
paused = True
ReleaseKey(A)
ReleaseKey(W)
ReleaseKey(D)
time.sleep(1)
continue
PFrame = Eyes.FrontFrameCapture()
PFrame = cv2.cvtColor(PFrame, cv2.COLOR_BGR2GRAY)
PFrame = cv2.resize(PFrame, (480, 270))
keys = Register.key_check()
output = Register.key_to_output(keys)
Data.append([PFrame, output])
# Save Bulk
if len(Data) % 1000 == 0:
print("################### Saving Bulk Number : " + str(i + 1) +
"###################")
np.save('Naive-Data\\' + file_name + '-' + str(i + 1) + '.npy',
Data)
i = i + 1
Data.clear()
# print('Loop took {} Seconds'.format(time.time() - last_time))
# last_time = time.time()
if 0xFF == ord('q'):
cv2.destroyAllWindows()
ReleaseKey(ChangeView)
break
# unneccssory Staff for now
# PFrame, original_image, m1, m2 = Detector.Detect(PFrame)
# cv2.imshow('Front', original_image)
# cv2.waitKey(1)
