class App:
def __init__(self, video_src, paused = False):
self.cap = video.create_capture(video_src)
_, self.frame = self.cap.read()
cv2.imshow('frame', self.frame)
self.rect_sel = RectSelector('frame', self.onrect)
self.trackers = []
self.paused = paused
def nextimage(self):
while True:
if not self.paused:
ret, self.frame = self.cap.read()
if not ret:
break
frame_gray = cv2.cvtColor(self.frame, cv2.COLOR_BGR2GRAY)
for tracker in self.trackers:
tracker.update(frame_gray)
vis = self.frame.copy()
for tracker in self.trackers:
tracker.draw_state(vis)
if len(self.trackers) > 0:
cv2.imshow('tracker state', self.trackers[-1].state_vis)
self.rect_sel.draw(vis)
cv2.imshow('frame', vis)
ch = cv2.waitKey(10)
if ch == 27:
break
if ch == ord(' '):
self.paused = not self.paused
if ch == ord('c'):
self.trackers = []
def __init__(self,
outputDest,
trackAlgorithm='mosse',
drawKp=False,
doClassify=False,
doActRecog=True,
outFps=30,
retrain=False,
matchEdges=False,
filterVelocity=True):
self.tracks = []
self.trackCount = 0
self.doClassify = doClassify
self.doActRecog = doActRecog
self.drawKeypoints = drawKp
self.trackAlgorithm = trackAlgorithm
self.vCubeDimens = (75, 100, 45)
self.outFps = outFps
self.doTrackWrite = False
self.rect_sel = RectSelector('frame', self.onrect)
self.lastFrame = None
if self.doClassify:
self.classifier = ObjectClassifier()
if self.doActRecog:
self.actionRecognizer = ActionRecognize(
'actions/',
self.vCubeDimens,
matchEdges=matchEdges,
retrain=retrain,
filterVelocity=filterVelocity)
self.outputFile = open(outputDest, 'w')
self.frameCount = 0
def __init__(self, video_src, paused=False):
self.cap = video.create_capture(video_src)
_, self.frame = self.cap.read()
cv2.imshow('frame', self.frame)
self.rect_sel = RectSelector('frame', self.onrect)
self.trackers = []
self.paused = paused
class App:
def Open(self):
self.paused = False
cv.namedWindow(titleWindow)
self.rect_sel = RectSelector(titleWindow, self.onrect)
self.trackers = []
PyStreamRun(self.OpenCVCode, titleWindow)
def onrect(self, rect):
frame_gray = cv.cvtColor(self.frame, cv.COLOR_BGR2GRAY)
tracker = MOSSE(frame_gray, rect)
self.trackers.append(tracker)
def OpenCVCode(self, imgRGB, depth32f, frameCount ):
self.frame = imgRGB.copy()
if not self.paused:
frame_gray = cv.cvtColor(self.frame, cv.COLOR_BGR2GRAY)
for tracker in self.trackers:
tracker.update(frame_gray)
for tracker in self.trackers:
tracker.draw_state(imgRGB)
if len(self.trackers) > 0:
cv.imshow('tracker state', self.trackers[-1].state_vis)
self.rect_sel.draw(imgRGB)
cv.imshow(titleWindow, imgRGB)
ch = cv.waitKey(10)
if ch == ord(' '):
self.paused = not self.paused
if ch == ord('c'):
self.trackers = []
return imgRGB, None
def __init__(self, cap, paused=False):
self.cap = cap
self.frame = self.cap.read()
print(self.frame.shape)
cv2.imshow('frame', self.frame)
self.rect_sel = RectSelector('frame', self.onrect)
self.trackers = []
self.paused = paused
def __init__(self, video_src, paused=False):
self.cap = video.create_capture(video_src)
_, self.frame = self.cap.read()
cv2.imshow('frame', self.frame)
self.rect_sel = RectSelector('frame', self.onrect)
self.trackers = [
] #之所以命名为 trackers ,而不是 tracker,并且使用list来容纳多个元素,是因为 MOSSE 例程中支持多目标跟踪,可以通过添加跟踪器来构建多目标跟踪
self.paused = paused
def __init__(self, video_src, paused=False):
#self.cap = video.create_capture(video_src)
self.cap = VideoCapture(
"rtsp://*****:*****@192.168.1.64:554/Streaming/Channels/102"
)
_, self.frame = self.cap.read()
cv.imshow('frame', self.frame)
self.rect_sel = RectSelector('frame', self.onrect)
self.trackers = []
self.paused = paused
def __init__(self, video_src, paused=False):
self.cap = video.create_capture(video_src)
_, self.frame = self.cap.read()
# self.out is the output video writer
fourcc = cv2.VideoWriter_fourcc(*'XVID')
self.out = cv2.VideoWriter('output.avi', fourcc, 30,
(self.frame.shape[1], self.frame.shape[0]))
cv2.imshow('frame', self.frame)
# For manually selecting objects to track. Not using, but not removing either.
self.rect_sel = RectSelector('frame', self.onrect)
self.trackers = []
self.paused = paused
def __init__(self, video_src, paused=False):
self.cap = video.create_capture(video_src)
_, self.frame = self.cap.read()
# self.video_src = video_src
# self.frames = os.listdir(video_src)
# print self.frames
# self.frame = cv2.imread(os.path.join(video_src, self.frames[0]))
print 'FrameShape: ', self.frame.shape
cv2.imshow('Video', self.frame)
self.rect_sel = RectSelector('Video', self.onrect)
self.paused = paused
self.trackers = []
class App:
def __init__(self, video_src, paused=False):
self.cap = video.create_capture(video_src)
_, self.frame = self.cap.read()
# self.video_src = video_src
# self.frames = os.listdir(video_src)
# print self.frames
# self.frame = cv2.imread(os.path.join(video_src, self.frames[0]))
print 'FrameShape: ', self.frame.shape
cv2.imshow('Video', self.frame)
self.rect_sel = RectSelector('Video', self.onrect)
self.paused = paused
self.trackers = []
def onrect(self, rect):
frame_gray = cv2.cvtColor(self.frame, cv2.COLOR_BGR2GRAY)
tracker = STC(frame_gray, rect)
self.trackers.append(tracker) # multi-target
def run(self):
i = 0
while True:
if not self.paused:
ret, self.frame = self.cap.read()
# self.frame = cv2.imread(os.path.join(self.video_src, self.frames[i]))
# i += 1
if not ret:
print 'Get frame fail!'
break
frame_gray = cv2.cvtColor(self.frame, cv2.COLOR_BGR2GRAY)
for tracker in self.trackers:
tracker.updata_tracker(frame_gray)
vis = self.frame.copy()
self.rect_sel.draw(vis)
for tracker in self.trackers:
tracker.draw_state(vis)
cv2.imshow('Video', vis)
ch = cv2.waitKey(1)
if ch == 27:
cv2.destroyAllWindows()
# self.cap.release()
break
if ch == ord(' '):
self.paused = not self.paused
if ch == ord('c'):
self.trackers = []
pass
class App:
def __init__(self, video_src, paused=False):
self.cap = video.create_capture(video_src)
_, self.frame = self.cap.read()
cv2.imshow('frame', self.frame)
self.rect_sel = RectSelector('frame', self.onrect)
self.trackers = []
self.paused = paused
def onrect(self, rect):
frame_gray = cv2.cvtColor(self.frame, cv2.COLOR_BGR2GRAY)
tracker = MOSSE(frame_gray, rect)
self.trackers.append(tracker)
def run(self):
while True:
if not self.paused:
ret, self.frame = self.cap.read()
if not ret:
break
frame_gray = cv2.cvtColor(self.frame, cv2.COLOR_BGR2GRAY)
for tracker in self.trackers:
tracker.update(frame_gray)
vis = self.frame.copy()
for tracker in self.trackers:
tracker.draw_state(vis)
if len(self.trackers) > 0:
cv2.imshow('tracker state', self.trackers[-1].state_vis)
self.rect_sel.draw(vis)
cv2.imshow('frame', vis)
ch = cv2.waitKey(10)
if ch == 27:
break
if ch == ord(' '):
self.paused = not self.paused
if ch == ord('c'):
self.trackers = []
if len(self.trackers) > 0:
if ch == ord('s'):
self.trackers[-1].saveCenter()
if ch == ord('a'):
self.trackers[-1].saveLeft()
if ch == ord('d'):
self.trackers[-1].saveRight()
if ch == ord('w'):
self.trackers[-1].saveUp()
if ch == ord('x'):
self.trackers[-1].saveDown()
def __init__(self, cap, paused=False):
self.cap = cap
_, self.frame = self.cap.read()
self.croph, self.cropw = 1080, 1920
self.frameh, self.framew, _ = self.frame.shape
self.original = self.frame
self.frame = imutils.resize(self.frame,
width=self.framew / 2,
height=self.framew / 2)
cv2.imshow('frame', self.frame)
self.rect_sel = RectSelector('frame', self.onrect)
self.trackers = []
self.paused = paused
class App:
def __init__(self, cap, paused=False):
self.cap = cap
self.frame = self.cap.read()
print(self.frame.shape)
cv2.imshow('frame', self.frame)
self.rect_sel = RectSelector('frame', self.onrect)
self.trackers = []
self.paused = paused
def onrect(self, rect):
frame_gray = cv2.cvtColor(self.frame, cv2.COLOR_BGR2GRAY)
tracker = MOSSE(frame_gray, rect)
self.trackers.append(tracker)
def run(self):
# Define the codec and create VideoWriter object
#fourcc = cv2.VideoWriter_fourcc(*'DIVX')
#the spec is for my webcam, the IP camera is 1920x1080
#out = cv2.VideoWriter('output.avi',fourcc, 30.0, (1920,1080))
while True:
if not self.paused:
self.frame = self.cap.read()
frame_gray = cv2.cvtColor(self.frame, cv2.COLOR_BGR2GRAY)
for tracker in self.trackers:
tracker.update(frame_gray)
vis = self.frame.copy()
for tracker in self.trackers:
tracker.draw_state(vis)
if len(self.trackers) > 0:
cv2.imshow('tracker state', self.trackers[-1].state_vis)
self.rect_sel.draw(vis)
cv2.imshow('frame', vis)
#out.write(vis)
ch = cv2.waitKey(10) & 0xFF
if ch == 27:
#out.release()
cv2.destroyAllWindows()
print("released out")
break
if ch == ord(' '):
self.paused = not self.paused
if ch == ord('c'):
self.trackers = []
def __init__(self, video_src, paused = False):
self.cap = video.create_capture(video_src)
_, self.frame = self.cap.read()
cv2.imshow('frame', self.frame)
self.rect_sel = RectSelector('frame', self.onrect)
self.trackers = []
self.paused = paused
def __init__(self, video_src, robotq, appq, launchspeed, swatted):
self.cap = video.create_capture(video_src)
_, self.frame = self.cap.read()
cv2.namedWindow('frame')
self.row = 0
self.bounceshot = 0
cv2.createTrackbar('row', 'frame', 0, 2, self.onrow)
cv2.createTrackbar('speed', 'frame', 0, 512, self.onspeed)
cv2.createTrackbar('bounceshot', 'frame', 0, 1, self.onbounceshot)
cv2.imshow('frame', self.frame)
self.rect_sel = RectSelector('frame', self.onrect)
self.trackers = []
self.robotq = robotq
self.appq = appq
self.launchspeed = launchspeed
self.swatted = swatted
class App:
def __init__(self, video_src, paused = False):
self.cap = video.create_capture(video_src)
_, self.frame = self.cap.read()
cv2.imshow('frame', self.frame)
self.rect_sel = RectSelector('frame', self.onrect)
self.trackers = []
self.paused = paused
def onrect(self, rect):
frame_gray = cv2.cvtColor(self.frame, cv2.COLOR_BGR2GRAY)
tracker = MOSSE(frame_gray, rect)
self.trackers.append(tracker)
def run(self):
while True:
if not self.paused:
ret, self.frame = self.cap.read()
if not ret:
break
frame_gray = cv2.cvtColor(self.frame, cv2.COLOR_BGR2GRAY)
for tracker in self.trackers:
tracker.update(frame_gray)
vis = self.frame.copy()
for tracker in self.trackers:
tracker.draw_state(vis)
if len(self.trackers) > 0:
cv2.imshow('tracker state', self.trackers[-1].state_vis)
self.rect_sel.draw(vis)
cv2.imshow('frame', vis)
ch = cv2.waitKey(10)
if ch == 27:
break
if ch == ord(' '):
self.paused = not self.paused
if ch == ord('c'):
self.trackers = []
#print("hi:%s" %self.hi())
try:
talker()
except rospy.ROSInterruptException:
pass
class App:
def __init__(self, video_src, paused = False):
print "app init entered", paused
self.cap = video.create_capture(video_src)
_, self.frame = self.cap.read()
cv2.imshow('frame', self.frame)
self.rect_sel = RectSelector('frame', self.onrect)
self.trackers = []
self.paused = paused
def onrect(self, rect):
print "onrect enterd"
frame_gray = cv2.cvtColor(self.frame, cv2.COLOR_BGR2GRAY)
tracker = MOSSE(frame_gray, rect)
self.trackers.append(tracker)
def run(self):
while True:
if not self.paused:
ret, self.frame = self.cap.read()
if not ret:
break
frame_gray = cv2.cvtColor(self.frame, cv2.COLOR_BGR2GRAY)
for tracker in self.trackers:
tracker.update(frame_gray)
vis = self.frame.copy()
for tracker in self.trackers:
tracker.draw_state(vis)
if len(self.trackers) > 0:
cv2.imshow('tracker state', self.trackers[-1].state_vis)
self.rect_sel.draw(vis)
cv2.imshow('frame', vis)
ch = cv2.waitKey(10)
if ch == 27:
break
if ch == ord(' '):
self.paused = not self.paused
if ch == ord('c'):
self.trackers = []
self.cap.release()
cv2.destroyAllWindows()
class App:
def __init__(self, video_src, paused=False):
self.cap = video.create_capture(video_src)
_, self.frame = self.cap.read()
cv2.imshow('frame', self.frame)
self.rect_sel = RectSelector('frame', self.onrect)
self.trackers = [
] #之所以命名为 trackers ,而不是 tracker,并且使用list来容纳多个元素,是因为 MOSSE 例程中支持多目标跟踪,可以通过添加跟踪器来构建多目标跟踪
self.paused = paused
def onrect(self, rect):
frame_gray = cv2.cvtColor(self.frame, cv2.COLOR_BGR2GRAY)
tracker = MOSSE(frame_gray, rect)
self.trackers.append(tracker)
def run(self):
while True:
if not self.paused:
ret, self.frame = self.cap.read()
if not ret:
break
frame_gray = cv2.cvtColor(self.frame, cv2.COLOR_BGR2GRAY)
#对于 trackers 中的每一个 tracker 的当前处理图像都进行更新
for tracker in self.trackers:
tracker.update(frame_gray)
vis = self.frame.copy()
#在处理完成的图像上将 trackers 中的每一个 tracker 的处理结果绘制出来(框)
for tracker in self.trackers:
tracker.draw_state(vis)
#在另外的一个小窗口中绘制 trackers 中最后一个 tracker 的跟踪结果(框内的小图像,MOSSE 示例中放的是原框大小的图像,我觉得应该作一个判断,比如可以将框内的图像放大到原来的2倍再放到小窗口中)
if len(self.trackers) > 0:
cv2.imshow('tracker state', self.trackers[-1].state_vis)
self.rect_sel.draw(vis)
cv2.imshow('frame', vis)
#经本人实测,MOSSE里程中waitKey的值默认为10,这种情形下的跟踪速度就已经非常可观了,我觉得如果在我的算法中将此处改为1后,再加上CMT不进行全局搜索,那实时性依然非常强
ch = cv2.waitKey(10)
if ch == 27:
break
if ch == ord(' '):
self.paused = not self.paused
if ch == ord('c'):
self.trackers = []
class App:
def __init__(self, video_src, paused=False):
print "app init entered", paused
self.cap = video.create_capture(video_src)
_, self.frame = self.cap.read()
cv2.imshow('frame', self.frame)
self.rect_sel = RectSelector('frame', self.onrect)
self.trackers = []
self.paused = paused
def onrect(self, rect):
print "onrect enterd"
frame_gray = cv2.cvtColor(self.frame, cv2.COLOR_BGR2GRAY)
tracker = MOSSE(frame_gray, rect)
self.trackers.append(tracker)
def run(self):
while True:
if not self.paused:
ret, self.frame = self.cap.read()
if not ret:
break
frame_gray = cv2.cvtColor(self.frame, cv2.COLOR_BGR2GRAY)
for tracker in self.trackers:
tracker.update(frame_gray)
vis = self.frame.copy()
for tracker in self.trackers:
tracker.draw_state(vis)
if len(self.trackers) > 0:
cv2.imshow('tracker state', self.trackers[-1].state_vis)
self.rect_sel.draw(vis)
cv2.imshow('frame', vis)
ch = cv2.waitKey(10)
if ch == 27:
break
if ch == ord(' '):
self.paused = not self.paused
if ch == ord('c'):
self.trackers = []
self.cap.release()
cv2.destroyAllWindows()
class App:
InterruptedFlag = 0
def __init__(self, video_src, paused=False):
self.cap = cv2.VideoCapture(video_src)
_, self.frame = self.cap.read()
cv2.imshow('frame', self.frame)
self.rect_sel = RectSelector('frame', self.onrect)
self.trackers = []
self.paused = paused
def onrect(self, rect):
frame_gray = cv2.cvtColor(self.frame, cv2.COLOR_BGR2GRAY)
tracker = MOSSE(frame_gray, rect)
self.trackers.append(tracker)
def run(self):
while True:
if not self.paused:
ret, self.frame = self.cap.read()
# print self.frame.shape
self.frame = cv2.flip(self.frame, 1)
if not ret:
break
frame_gray = cv2.cvtColor(self.frame, cv2.COLOR_BGR2GRAY)
for tracker in self.trackers:
tracker.update(frame_gray)
vis = self.frame.copy()
for tracker in self.trackers:
tracker.draw_state(vis)
self.rect_sel.draw(vis)
cv2.imshow('frame', vis)
ch = cv2.waitKey(10) & 0xFF
if ch == ord('q'):
App.InterruptedFlag = 0
break
if ch == ord(' '):
self.paused = not self.paused
if ch == ord('c'):
self.trackers = []
cv2.destroyAllWindows()
return
class App:
def __init__(self, video_src, paused=False):
#self.cap = video.create_capture(video_src)
self.cap = VideoCapture(
"rtsp://*****:*****@192.168.1.64:554/Streaming/Channels/102"
)
_, self.frame = self.cap.read()
cv.imshow('frame', self.frame)
self.rect_sel = RectSelector('frame', self.onrect)
self.trackers = []
self.paused = paused
def onrect(self, rect):
frame_gray = cv.cvtColor(self.frame, cv.COLOR_BGR2GRAY)
tracker = MOSSE(frame_gray, rect)
self.trackers.append(tracker)
def run(self):
while True:
if not self.paused:
ret, self.frame = self.cap.read()
if not ret:
break
frame_gray = cv.cvtColor(self.frame, cv.COLOR_BGR2GRAY)
for tracker in self.trackers:
tracker.update(frame_gray)
vis = self.frame.copy()
for tracker in self.trackers:
tracker.draw_state(vis)
if len(self.trackers) > 0:
cv.imshow('tracker state', self.trackers[-1].state_vis)
self.rect_sel.draw(vis)
cv.imshow('frame', vis)
ch = cv.waitKey(10)
if ch == 27:
break
if ch == ord(' '):
self.paused = not self.paused
if ch == ord('c'):
self.trackers = []
class App:
def __init__(self, video_src, paused=False):
self.cap = video.create_capture(video_src)
_, self.frame = self.cap.read()
cv2.imshow("frame", self.frame)
self.rect_sel = RectSelector("frame", self.onrect)
self.trackers = []
self.paused = paused
def onrect(self, rect):
frame_gray = cv2.cvtColor(self.frame, cv2.COLOR_BGR2GRAY)
tracker = MOSSE(frame_gray, rect)
self.trackers.append(tracker)
def run(self):
while True:
if not self.paused:
ret, self.frame = self.cap.read()
if not ret:
break
frame_gray = cv2.cvtColor(self.frame, cv2.COLOR_BGR2GRAY)
for tracker in self.trackers:
tracker.update(frame_gray)
vis = self.frame.copy()
for tracker in self.trackers:
tracker.draw_state(vis)
if len(self.trackers) > 0:
cv2.imshow("tracker state", self.trackers[-1].state_vis)
self.rect_sel.draw(vis)
cv2.imshow("frame", vis)
ch = cv2.waitKey(10) & 0xFF
if ch == 27:
break
if ch == ord(" "):
self.paused = not self.paused
if ch == ord("c"):
self.trackers = []
class Capture:
def __init__(self, video_src, paused = False):
self.cap = video.create_capture(video_src)
_, self.frame = self.cap.read()
cv2.imshow('frame', self.frame)
self.rect_sel = RectSelector('frame', self.onrect)
self.trackers = []
self.paused = paused
def onrect(self, rect):
frame_gray = cv2.cvtColor(self.frame, cv2.COLOR_BGR2GRAY)
tracker = Tracker(frame_gray, rect)
self.trackers.append(tracker)
def run(self):
if not self.paused:
ret, self.frame = self.cap.read()
if not ret:
return
frame_gray = cv2.cvtColor(self.frame, cv2.COLOR_BGR2GRAY)
for tracker in self.trackers:
tracker.update(frame_gray)
vis = self.frame.copy()
for tracker in self.trackers:
tracker.draw_state(vis)
if len(self.trackers) > 0:
cv2.imshow('tracker state', self.trackers[-1].state_vis)
self.rect_sel.draw(vis)
cv2.imshow('frame', vis)
ch = cv2.waitKey(10) & 0xFF
if ch == 27:
return
if ch == ord(' '):
self.paused = not self.paused
if ch == ord('c'):
self.trackers = []
class Capture:
def __init__(self, video_src, paused=False):
self.cap = video.create_capture(video_src)
_, self.frame = self.cap.read()
cv2.imshow('frame', self.frame)
self.rect_sel = RectSelector('frame', self.onrect)
self.trackers = []
self.paused = paused
def onrect(self, rect):
frame_gray = cv2.cvtColor(self.frame, cv2.COLOR_BGR2GRAY)
tracker = Tracker(frame_gray, rect)
self.trackers.append(tracker)
def run(self):
if not self.paused:
ret, self.frame = self.cap.read()
if not ret:
return
frame_gray = cv2.cvtColor(self.frame, cv2.COLOR_BGR2GRAY)
for tracker in self.trackers:
tracker.update(frame_gray)
vis = self.frame.copy()
for tracker in self.trackers:
tracker.draw_state(vis)
if len(self.trackers) > 0:
cv2.imshow('tracker state', self.trackers[-1].state_vis)
self.rect_sel.draw(vis)
cv2.imshow('frame', vis)
ch = cv2.waitKey(10) & 0xFF
if ch == 27:
return
if ch == ord(' '):
self.paused = not self.paused
if ch == ord('c'):
self.trackers = []
class App:
def __init__(self, video_src, robotq, appq, launchspeed, swatted):
self.cap = video.create_capture(video_src)
_, self.frame = self.cap.read()
cv2.namedWindow('frame')
self.row = 0
self.bounceshot = 0
cv2.createTrackbar('row', 'frame', 0, 2, self.onrow)
cv2.createTrackbar('speed', 'frame', 0, 512, self.onspeed)
cv2.createTrackbar('bounceshot', 'frame', 0, 1, self.onbounceshot)
cv2.imshow('frame', self.frame)
self.rect_sel = RectSelector('frame', self.onrect)
self.trackers = []
self.robotq = robotq
self.appq = appq
self.launchspeed = launchspeed
self.swatted = swatted
def nothing(*arg):
pass
def onrow(self, row):
'''When the row is changed, update the speed.'''
self.row = row
if self.bounceshot:
if row == 0: speed = 160
elif row == 1: speed = 165
elif row == 2: speed = 170
else:
if row == 0: speed = 230
elif row == 1: speed = 235
elif row == 2: speed = 240
cv2.setTrackbarPos('speed', 'frame', speed)
def onspeed(self, speed):
'''When the speed is changed, send it to the robot.'''
self.robotq.put((0, speed))
def onbounceshot(self, bounceshot):
'''When we toggle bounce shots, update the speed.'''
self.bounceshot = bounceshot
self.onrow(self.row)
def onrect(self, rect):
frame_gray = cv2.cvtColor(self.frame, cv2.COLOR_BGR2GRAY)
tracker = MOSSE(frame_gray, rect)
self.trackers = [tracker]
def drawcrosshairs(self,
img,
width,
height,
color=(0, 255, 255),
thickness=1):
p0 = int(width // 2), 0
p1 = int(width // 2), int(height)
cv2.line(img, p0, p1, color, thickness)
p0 = int(width // 2) - int(width // 10), int(height // 2)
p1 = int(width // 2) + int(width // 10), int(height // 2)
cv2.line(img, p0, p1, color, thickness)
def run(self):
direction = 0
while True:
ret, self.frame = self.cap.read()
self.frame = cv2.flip(self.frame, -1)
if not ret:
break
frame_gray = cv2.cvtColor(self.frame, cv2.COLOR_BGR2GRAY)
for tracker in self.trackers:
tracker.update(frame_gray)
vis = self.frame.copy()
width = self.cap.get(cv.CV_CAP_PROP_FRAME_WIDTH)
height = self.cap.get(cv.CV_CAP_PROP_FRAME_HEIGHT)
if len(self.trackers) > 0:
x, _ = self.trackers[0].draw_state(vis)
x = int(x)
# Make the robot move toward the object
if x < width // 2:
if direction >= 0:
print "Going left"
self.robotq.put((1, 100000, 1))
direction = -1
elif x > width // 2:
if direction <= 0:
print "Going right"
self.robotq.put((1, 100000, 0))
direction = 1
else:
print "Cup targeting complete"
self.robotq.put((1, 0, 0))
direction = 0
elif direction != 0:
self.robotq.put((1, 0, 0))
direction = 0
self.drawcrosshairs(vis, width, height)
self.rect_sel.draw(vis)
draw_str(vis, (5, 15),
"Launch speed: {}".format(self.launchspeed.value))
draw_str(vis, (5, 30), "Swatted: {}".format(self.swatted.value))
cv2.imshow('frame', vis)
ch = cv2.waitKey(10)
if ch == 27:
break
if ch == ord('d'):
print "Manually going right"
self.robotq.put((1, 50, 0))
if ch == ord('a'):
print "Manually going left"
self.robotq.put((1, 50, 1))
if ch == ord(' '):
print "Shooting"
self.robotq.put('shoot')
if ch == ord('s'):
print "Swatting"
self.robotq.put('swat')
if ch == ord('c'):
self.trackers = []
cv2.destroyAllWindows()
self.robotq.put('exit')
class MotionTracker:
def __init__(self, video_src, paused=False):
self.cap = video.create_capture(video_src)
_, self.frame = self.cap.read()
# self.out is the output video writer
fourcc = cv2.VideoWriter_fourcc(*'XVID')
self.out = cv2.VideoWriter('output.avi', fourcc, 30,
(self.frame.shape[1], self.frame.shape[0]))
cv2.imshow('frame', self.frame)
# For manually selecting objects to track. Not using, but not removing either.
self.rect_sel = RectSelector('frame', self.onrect)
self.trackers = []
self.paused = paused
def onrect(self, rect):
frame_gray = cv2.cvtColor(self.frame, cv2.COLOR_BGR2GRAY)
tracker = MOSSE(frame_gray, rect, len(self.trackers))
self.trackers.append(tracker)
def run(self):
frame_number = 0
csvf = open('tracks.csv', 'w')
while True:
if not self.paused:
ret, self.frame = self.cap.read()
if not ret:
break
# First update existing trackers with current frame
frame_gray = cv2.cvtColor(self.frame, cv2.COLOR_BGR2GRAY)
# Remove mosse trackers that are statinary for 100 frames
for tracker in self.trackers:
if (tracker.stationary_for_frames > 100):
self.trackers.remove(tracker)
# Calculate the union of all existing trackers
# The type of object returned depends on the relationship between the operands.
# The union of polygons (for example) will be a polygon or a multi-polygon depending on whether they intersect or not.
union_of_trackers = None
index = 0
for tracker in self.trackers:
# fix tracker index
tracker.index = index
index = index + 1
tracker.update(frame_gray)
(x, y), (w, h) = tracker.pos, tracker.size
# tracker returns center and size; convert it to topleft and bottomright points
x1, y1, x2, y2 = int(x - 0.5 * w), int(y - 0.5 * h), int(
x + 0.5 * w), int(y + 0.5 * h)
b = gs.box(x1, y1, x2, y2)
if not union_of_trackers:
union_of_trackers = b
else:
union_of_trackers = union_of_trackers.union(b)
# Call MOG and get a list of large enough foregound rects
rects = mog.getForegroundRects(self.frame)
for rect in rects:
x, y, w, h = rect
r = gs.box(
x, y, x + w, y + h
) # MOG returns topleft and size; need topleft and bottomright points
# check if this rect(MOG) is already mostly covered by other trackers(MOSSE)
if union_of_trackers:
common_area = union_of_trackers.intersection(r).area
ratio_covered = common_area / r.area
if ratio_covered > .6:
continue
# check if this rect(MOG) almost contains another tracker(MOSSE), if yes then update that tracker's rect
new_rect = True
for tracker in self.trackers:
(x, y), (w, h) = tracker.pos, tracker.size
x1, y1, x2, y2 = int(x - 0.5 * w), int(
y - 0.5 * h), int(x + 0.5 * w), int(y + 0.5 * h)
b = gs.box(x1, y1, x2, y2)
#if(r.area > b.area):
common_area = r.intersection(b).area
ratio_covered = common_area / b.area
#print(ratio_covered)
if ratio_covered > .2:
if r.area / b.area > 1.2 or b.area / r.area > 1.2:
x1, y1, x2, y2 = r.union(b).bounds
self.trackers[tracker.index] = MOSSE(
frame_gray,
(int(x1), int(y1), int(x2), int(y2)),
tracker.index,
tracker.id_,
reInit=True)
else:
tracker.stationary_for_frames = 0
new_rect = False
break
# otherwise new tracker found; append to the list of trackers
if new_rect:
x, y, w, h = rect
tracker = MOSSE(frame_gray, (x, y, x + w, y + h),
len(self.trackers))
self.trackers.append(tracker)
# write csv output file
for tracker in self.trackers:
(x, y), (w, h) = tracker.pos, tracker.size
x1, y1, x2, y2 = int(x - 0.5 * w), int(y - 0.5 * h), int(
x + 0.5 * w), int(y + 0.5 * h)
if x1 < 0:
x1 = 0
if y1 < 0:
y1 = 0
if x2 > self.frame.shape[1] - 1:
x2 = self.frame.shape[1] - 1
if y2 > self.frame.shape[0] - 1:
y2 = self.frame.shape[0] - 1
writer = csv.writer(csvf)
writer.writerow(
(tracker.index, frame_number, x1, y1, x2, y2))
# print("self.trackers", self.trackers)
# print("frame number", frame_number)
frame_number += 1
vis = self.frame.copy()
for tracker in self.trackers:
tracker.draw_state(vis)
#if len(self.trackers) > 0:
# cv2.imshow('tracker state', self.trackers[-1].state_vis)
self.rect_sel.draw(vis)
cv2.imshow('frame', vis)
self.out.write(vis)
ch = cv2.waitKey(10) % 256
if ch == 27:
break
if ch == ord(' '):
self.paused = not self.paused
if ch == ord('c'):
self.trackers = []
class App:
def __init__(self, cap, paused=False):
self.cap = cap
_, self.frame = self.cap.read()
self.croph, self.cropw = 1080, 1920
self.frameh, self.framew, _ = self.frame.shape
self.original = self.frame
self.frame = imutils.resize(self.frame,
width=self.framew / 2,
height=self.framew / 2)
cv2.imshow('frame', self.frame)
self.rect_sel = RectSelector('frame', self.onrect)
self.trackers = []
self.paused = paused
def onrect(self, rect):
frame_gray = cv2.cvtColor(self.frame, cv2.COLOR_BGR2GRAY)
tracker = MOSSE(frame_gray, rect)
self.trackers.append(tracker)
def run(self):
# Define the codec and create VideoWriter object
fourcc = cv2.VideoWriter_fourcc(*'DIVX')
#the spec is for my webcam, the IP camera is 1920x1080
out = cv2.VideoWriter('output.avi',fourcc, 30.0, (1920,1080))
while True:
if not self.paused:
ret, self.frame = self.cap.read()
self.original = self.frame
if self.frame is None:
out.release()
cv2.destroyAllWindows()
break
self.frame = imutils.resize(self.frame,
width=self.framew / 2,
height=self.framew / 2)
frame_gray = cv2.cvtColor(self.frame, cv2.COLOR_BGR2GRAY)
for tracker in self.trackers:
x, y = tracker.pos[0]*2, tracker.pos[1]*2
#remember you are cropping from 3840,2160
if self.framew - (x + self.cropw/2) < 0:
x = self.framew -self.cropw/2
if self.frameh - (y + self.croph/2) < 0:
y = self.frameh - self.croph/2
if x - 960 < 0:
x = 960
if y - 540 < 0:
y = 540
subwin = cv2.getRectSubPix(self.original,
(self.cropw, self.croph),
(x,y))
out.write(subwin)
tracker.update(frame_gray)
vis = self.frame.copy()
for tracker in self.trackers:
tracker.draw_state(vis)
if len(self.trackers) > 0:
cv2.imshow('tracker state', self.trackers[-1].state_vis)
self.rect_sel.draw(vis)
cv2.imshow('frame', vis)
ch = cv2.waitKey(10) & 0xFF
if ch == 27:
out.release()
cv2.destroyAllWindows()
break
if ch == ord(' '):
self.paused = not self.paused
if ch == ord('c'):
self.trackers = []
piThread = PiThread(getPiData)
piThread.start()
print('connecting...')
d = ardrone.ARDrone()
print('waiting for video...')
while d.image is None:
pass
print('loading calibration info')
mtx, dist, newcameramtx = getCalibrationInfo()
out = None
# cv2.imshow('frame', np.array([FRAME_HEIGHT, FRAME_WIDTH, 3])) #######Changed
rs = RectSelector('frame', startTracking)
print('battery remaining:', d.navdata['demo']['battery'])
updateBattery(d.navdata['demo']['battery'])
if d.navdata['state']['emergency'] == 1:
d.reset()
while True:
frame = cv2.cvtColor(np.array(d.image), cv2.COLOR_RGB2BGR)
# frame = cv2.undistort(frame, mtx, dist)
frame = cv2.undistort(frame, mtx, dist, None, newcameramtx)
if rs.dragging:
rs.draw(frame)
if isTracking:
tracker.update(frame)
r = tracker.get_position()
def Open(self):
self.paused = False
cv.namedWindow(titleWindow)
self.rect_sel = RectSelector(titleWindow, self.onrect)
self.trackers = []
PyStreamRun(self.OpenCVCode, titleWindow)
class ObjectTracker:
def __init__(self,
outputDest,
trackAlgorithm='mosse',
drawKp=False,
doClassify=False,
doActRecog=True,
outFps=30,
retrain=False,
matchEdges=False,
filterVelocity=True):
self.tracks = []
self.trackCount = 0
self.doClassify = doClassify
self.doActRecog = doActRecog
self.drawKeypoints = drawKp
self.trackAlgorithm = trackAlgorithm
self.vCubeDimens = (75, 100, 45)
self.outFps = outFps
self.doTrackWrite = False
self.rect_sel = RectSelector('frame', self.onrect)
self.lastFrame = None
if self.doClassify:
self.classifier = ObjectClassifier()
if self.doActRecog:
self.actionRecognizer = ActionRecognize(
'actions/',
self.vCubeDimens,
matchEdges=matchEdges,
retrain=retrain,
filterVelocity=filterVelocity)
self.outputFile = open(outputDest, 'w')
self.frameCount = 0
def seedTracks(self, img, mask, points):
self.lastFrame = img
contourlist = points[1]
for contour in contourlist:
rect = cv2.boundingRect(contour)
x, y, w, h = rect
# TBD: remove this once we can fix whole first frame being detected as track
if w > 10000 or h < 100: #cv2.contourArea(contour) <= 5000:
continue
# is this blob close to a known object?
foundTrack = False
for track in self.tracks:
if track.isActive() and track.matches(rect, img):
foundTrack = True
continue
# start new track
if foundTrack == False and not self.isNearEdge(rect, img):
self.startTrack(img, rect, mask)
def onrect(self, rect):
# API delivers top left/bottom right corners so we need to convert
x1, y1, x2, y2 = rect
trackRect = (x1, y1, x2 - x1, y2 - y1)
self.startTrack(self.lastFrame, trackRect)
def startTrack(self, img, rect, mask=None):
self.trackCount = self.trackCount + 1
ntrck = getTrackInst(self.trackCount, self.trackAlgorithm, rect, img,
mask)
ntrck.setOutFps(self.outFps)
self.tracks.append(ntrck)
print('New track #' + repr(self.trackCount) + ' ' + repr(rect))
def writeTracks(self, frame):
for track in self.tracks:
x, y, w, h = track.getNewestRect()
lost = '1' if not track.isActive() else '0'
occluded = '1' if track.isOccluded() else '0'
generated = '1' if track.isOccluded() else '0'
self.outputFile.write('' + repr(track.getTrackId() - 1) + ' ' +
repr(x) + ' ' + repr(y) + ' ' + repr(x + w) +
' ' + repr(y + w) + ' ' + repr(frame) + ' ' +
lost + ' ' + occluded + ' ' + generated +
' "' + track.getLastAction() + '"')
self.outputFile.write("\n")
def saveTracks(self):
for track in self.tracks:
track.saveLastTracklet()
def clearTracks(self):
self.tracks = []
#self.trackCount = 0
def update(self, img):
self.frameCount = self.frameCount + 1
for track in self.tracks:
if track.isActive():
track.update(img)
if self.doActRecog and self.frameCount % 5 == 0:
action = self.actionRecognizer.getAction(
track.getLastTracklet(45))
track.updateAction(action)
if self.doClassify:
ttype, kp = self.classifier.classify(
img, track.getNewestRect())
track.updateClass(ttype, kp)
def toggleDoTrackWrite(self):
self.doTrackWrite = not self.doTrackWrite
#for track in self.tracks:
# track.setDoTrackWrite(self.doTrackWrite)
def isNearEdge(self, rect, img, thresh=50):
x, y, w, h = rect
ih, iw = img.shape[:2]
return x < thresh or y < thresh or x + w > iw - thresh or y + h > ih - thresh
def drawBounds(self,
title,
img,
color=(0, 255, 0),
occludeColor=(0, 0, 255)):
self.rect_sel.draw(img)
useColor = color
height, width = img.shape[:2]
for track in self.tracks:
if not track.isActive():
continue
if track.isOccluded():
useColor = occludeColor
else:
useColor = color
x, y, w, h = track.getNewestRect()
xt, yt, wt, ht = track.getTrackletRect()
if self.doActRecog:
action = track.getLastAction()
else:
action = 'noActRec'
lbl = '#' + repr(track.getTrackId()) + ' ' + action + '(' + repr(
w) + ',' + repr(h) + ')'
#if self.doClassify:
# ttype = track.getLastClass()
#else:
# ttype = 'noclassify'
#keypoints = track.getLastKeypoints()
#if self.drawKeypoints and not keypoints is None:
# for kp in keypoints:
# kp.pt = (kp.pt[0]+x, kp.pt[1]+y)
# cv2.drawKeypoints(img,keypoints,img)
# lbl = '#' + repr(track.getTrackId()) + ' ' + ttype + ' (' + repr(len(keypoints)) + ')'
#else:
# lbl = '#' + repr(track.getTrackId()) + ' ' + ttype
cv2.rectangle(img, (x, y), (x + w, y + h), useColor, 1)
if not self.doActRecog:
cv2.rectangle(img, (xt, yt), (xt + wt, yt + ht), (0, 255, 255),
1)
if track.isOccluded() and False:
sx, sy, sw, sh = track.getSearchWindow()
cv2.rectangle(img, (sx, sy), (sx + sw, sy + sh), (0, 255, 255),
1)
cv2.putText(img, lbl, (x, y + h + 15), 0, 0.5, useColor)
if False:
path = track.getPath()
predicted = track.getPredicted()
currPoint = 0
drawPoint = 1 #limit number of points drawn
for point in path:
currPoint = currPoint + 1
if currPoint % drawPoint == 0:
cv2.putText(img, '+', (int(point[0]), int(point[1])),
0, 0.3, color)
for point in predicted:
cv2.putText(img, '+', (int(point[0]), int(point[1])), 0,
0.3, occludeColor)
if self.doTrackWrite:
frmLbl = 'Total objects: ' + repr(len(self.tracks)) + ' WRITE'
else:
frmLbl = 'Total objects: ' + repr(len(self.tracks))
cv2.putText(img, title, (15, 15), 0, 0.5, color)
cv2.putText(img, frmLbl, (15, 30), 0, 0.5, color)
return img
def closeOut(self):
self.outputFile.close()
def get_manul(sample_path, save_path):
sample_rects = []
file_idx = 0
out_flag = False
def Onrect(rect):
sample_rects.append(rect)
def filter_extr(file_name):
return os.path.splitext(file_name)[-1] in ['.JPG', '.jpg', '.bmp']
cv2.namedWindow('Frame', 1)
rect_sel = RectSelector('Frame', Onrect)
sample_files = os.listdir(sample_path)
sample_files = filter(filter_extr, sample_files)
for file in sample_files:
sample_rects = []
frame = cv2.imread(os.path.join(sample_path, file))
frame = frame[:, :, ::-1]
file_name = os.path.splitext(file)[0]
while True:
vis = frame.copy()
rect_sel.draw(vis)
draw_str(vis, (20, 20), file_name)
for rect in sample_rects:
x = rect[0]
y = rect[1]
w = rect[2] - rect[0]
h = rect[3] - rect[1]
draw_str(vis, (rect[0], rect[1] - 5),
'(%d,%d,%d,%d)' % (x, y, w, h))
draw_rect(vis, rect)
cv2.imshow('Frame', vis)
ch = cv2.waitKey(1)
if ch == 27:
cv2.destroyAllWindows()
out_flag = True
break
if ch == ord('n'):
sample_rects = []
break
if ch == ord('s'):
num_rects = len(sample_rects)
print num_rects
coor_file_name = file_name + '.txt'
coor_file_path = os.path.join(sample_path, coor_file_name)
fp = open(coor_file_path, 'wb')
for idx_rect, rect in enumerate(sample_rects):
x0, y0, x1, y1 = rect
x_c = (x0 + x1) * 1. / 2
y_c = (y0 + y1) * 1. / 2
w = (x1 - x0) * 1.
h = (y1 - y0) * 1.
coor_res = '%f %f %f %f' % (x_c / vis.shape[1], y_c /
vis.shape[0], w / vis.shape[1],
h / vis.shape[0])
fp.write("0" + " " + coor_res + "\n")
fp.close()
if ch == ord('r'):
sample_rects = []
if out_flag:
break
class App1:
def __init__(self, video_src, paused=False):
self.cap = video.create_capture(1)
_, self.frame = self.cap.read()
cv2.imshow('frame', self.frame)
self.rect_sel = RectSelector('frame', self.onrect)
self.trackers = []
self.paused = paused
def onrect(self, rect):
frame_gray = cv2.cvtColor(self.frame, cv2.COLOR_BGR2GRAY)
tracker = MOSSE(frame_gray, rect)
self.trackers.append(tracker)
def run(self, one):
global required_area
global max_area
coun_max = 0
while True:
if not self.paused:
ret, self.frame = self.cap.read()
if not ret:
break
frame_gray = cv2.cvtColor(self.frame, cv2.COLOR_BGR2GRAY)
blurgray = cv2.GaussianBlur(frame_gray, (5, 5), 0)
ret, thresh1 = cv2.threshold(
blurgray, 70, 255, cv2.THRESH_BINARY_INV + cv2.THRESH_OTSU)
#cv2.imshow('thresh',thresh1)
image, contours, hierarchy = cv2.findContours(
thresh1, cv2.RETR_TREE, cv2.CHAIN_APPROX_SIMPLE)
drawing = np.zeros(self.frame.shape, np.uint8)
max_area = 0
ci = 0
for i in range(len(contours)):
cnt = contours[i]
area = cv2.contourArea(cnt)
#setting required_area
if (area > max_area):
max_area = area
if (max_area > required_area):
required_area = max_area
ci = i
cnt = contours[ci]
hull = cv2.convexHull(cnt)
moments = cv2.moments(cnt)
if moments['m00'] != 0:
cx = int(moments['m10'] / moments['m00']) # cx = M10/M00
cy = int(moments['m01'] / moments['m00']) # cy = M01/M00
centr = (cx, cy)
cv2.circle(self.frame, centr, 5, [0, 0, 255], 2)
cv2.drawContours(drawing, [cnt], 0, (0, 255, 0), 2)
cv2.drawContours(drawing, [hull], 0, (0, 0, 255), 2)
cnt = cv2.approxPolyDP(cnt, 0.01 * cv2.arcLength(cnt, True),
True)
hull = cv2.convexHull(cnt, returnPoints=False)
if (1):
defects = cv2.convexityDefects(cnt, hull)
mind = 0
maxd = 0
coun = 0
for i in range(defects.shape[0]):
coun = coun + 1
s, e, f, d = defects[i, 0]
start = tuple(cnt[s][0])
end = tuple(cnt[e][0])
far = tuple(cnt[f][0])
dist = cv2.pointPolygonTest(cnt, centr, True)
cv2.line(self.frame, start, end, [0, 255, 0], 2)
cv2.circle(self.frame, far, 5, [0, 0, 255], -1)
cv2.circle(self.frame, start, 5, [255, 0, 0], -1)
i = 0
font = cv2.FONT_HERSHEY_SIMPLEX
cv2.putText(self.frame, str(coun), (0, 40), font, 1,
(0, 0, 0), 2)
cv2.putText(self.frame, str(coun_max), (0, 80), font, 1,
(0, 0, 0), 2)
(x, y) = win32api.GetCursorPos()
if (1):
if (coun == coun_max + 1):
while (one == 0):
(x, y) = win32api.GetCursorPos()
win32api.mouse_event(
win32con.MOUSEEVENTF_WHEEL, x, y, 60, 0)
end = 1
one = 1
if (coun == coun_max - 1):
while (one == 0):
(x, y) = win32api.GetCursorPos()
win32api.mouse_event(
win32con.MOUSEEVENTF_WHEEL, x, y, -60, 0)
end = 1
one = 1
if (coun == coun_max):
(x, y) = win32api.GetCursorPos()
#win32api.mouse_event(win32con.MOUSEEVENTF_LEFTUP,int(screenWidth -4*x),int(2*y),0,0)
end = 0
one = 0
#else:
#pyautogui.hotkey('win','m')
for tracker in self.trackers:
tracker.update(frame_gray)
vis = self.frame.copy()
for tracker in self.trackers:
tracker.draw_state(vis, 0)
if len(self.trackers) > 0:
cv2.imshow('tracker state', self.trackers[-1].state_vis)
self.rect_sel.draw(vis)
cv2.imshow('frame', vis)
ch = cv2.waitKey(10)
if ch == ord('s'):
coun_max = coun
a = cx - 80
b = cy - 80
c = cx + 80
d = cy + 80
frame_gray = cv2.cvtColor(self.frame, cv2.COLOR_BGR2GRAY)
tracker = MOSSE(frame_gray, (a, b, c, d))
self.trackers.append(tracker)
if ch == 27:
self.cap.release()
break
if ch == ord(' '):
self.paused = not self.paused
if ch == ord('c'):
self.trackers = []
coun_max = 0
if ch == ord('g'):
print "__chirayu__"
App1(video_src, paused='--pause' in opts).run(one)
print "__harshit__"
