#!/usr/bin/env python from cv import * class FBackDemo: def __init__(self): self.capture = CaptureFromCAM(0) self.mv_step = 16 self.mv_scale = 1.5 self.mv_color = (0, 255, 0) self.cflow = None self.flow = None NamedWindow( "Optical Flow", 1 ) print( "Press ESC - quit the program\n" ) def draw_flow(self, flow, prevgray): """ Returns a nice representation of a hue histogram """ CvtColor(prevgray, self.cflow, CV_GRAY2BGR) for y in range(0, flow.height, self.mv_step): for x in range(0, flow.width, self.mv_step): fx, fy = flow[y, x] Line(self.cflow, (x,y), (x+fx,y+fy), self.mv_color) Circle(self.cflow, (x,y), 2, self.mv_color, -1) ShowImage("Optical Flow", self.cflow) def run(self): first_frame = True while True: frame = QueryFrame( self.capture ) if first_frame: gray = CreateImage(GetSize(frame), 8, 1) prev_gray = CreateImage(GetSize(frame), 8, 1) flow = CreateImage(GetSize(frame), 32, 2) self.cflow = CreateImage(GetSize(frame), 8, 3) CvtColor(frame, gray, CV_BGR2GRAY) if not first_frame: CalcOpticalFlowFarneback(prev_gray, gray, flow, pyr_scale=0.5, levels=3, winsize=15, iterations=3, poly_n=5, poly_sigma=1.2, flags=0) self.draw_flow(flow, prev_gray) c = WaitKey(7) if c in [27, ord('q'), ord('Q')]: break prev_gray, gray = gray, prev_gray first_frame = False if __name__=="__main__": demo = FBackDemo() demo.run() cv.DestroyAllWindows()