# Live video input class. # Note that importing this module attempts to initialize video. # Check if video is available. # There are three reasons for failure here: # (1) this version of Python may not have the sv or imageop modules; # (2) this machine may not have a video board; # (3) initializing the video board may fail for another reason. # The global variable have_video is set to true iff we reall do have video. try: import sv import SV import imageop try: v = sv.OpenVideo() have_video = 1 except sv.error: have_video = 0 except ImportError: have_video = 0 # The live video input class. # Only instantiate this if have_video is true! class LiveVideoIn: # Initialize an instance. Arguments: # vw, vh: size of the video window data to be captured. # For some reason, vw MUST be a multiple of 4. # Note that the data has to be cropped unless vw and vh are # just right for the video board (vw:vh == 4:3 and vh even). def init(self, pktmax, vw, vh, type): if not have_video: raise RuntimeError, 'no video available' if vw % 4 != 0: raise ValueError, 'vw must be a multiple of 4' self.pktmax = pktmax realvw = vh*SV.PAL_XMAX/SV.PAL_YMAX if realvw < vw: realvw = vw self.realwidth, self.realheight = v.QuerySize(realvw, vh) if not type in ('rgb8', 'grey', 'mono'): raise 'Incorrent video data type' self.type = type if type in ('grey', 'mono'): v.SetParam([SV.COLOR, SV.MONO, SV.INPUT_BYPASS, 1]) else: v.SetParam([SV.COLOR, SV.DEFAULT_COLOR, \ SV.INPUT_BYPASS, 0]) # Initialize capture (mode, self.realwidth, self.realheight, qsize, rate) = \ v.InitContinuousCapture(SV.RGB8_FRAMES, \ self.realwidth, self.realheight, 1, 5) self.width = vw self.height = vh self.x0 = (self.realwidth-self.width)/2 self.x1 = self.x0 + self.width - 1 self.y0 = (self.realheight-self.height)/2 self.y1 = self.y0 + self.height - 1 # Compute # full lines per packet self.lpp = pktmax / self.width self.pktsize = self.lpp*self.width self.data = None self.dataoffset = 0 self.lpos = 0 self.justright = (self.realwidth == self.width and \ self.realheight == self.height) ## if not self.justright: ## print 'Want:', self.width, 'x', self.height, ## print '; grab:', self.realwidth, 'x', self.realheight return self # Change the size of the video being displayed. def resizevideo(self, vw, vh): self.close() self = self.init(self.pktmax, vw, vh, self.type) # Remove an instance. # This turns off continuous capture. def close(self): v.EndContinuousCapture() # Get the next video packet. # This returns (lpos, data) where: # - lpos is the line position # - data is a piece of data # The dimensions of data are: # - pixel depth = 1 byte # - scan line width = self.width (the vw argument to init()) # - number of scan lines = self.lpp (PKTMAX / vw) def getnextpacket(self): if not self.data or self.dataoffset >= len(self.data): try: cd, id = v.GetCaptureData() except sv.error: return None data = cd.InterleaveFields(1) cd.UnlockCaptureData() if self.justright: self.data = data else: self.data = imageop.crop(data, 1, \ self.realwidth, \ self.realheight, \ self.x0, self.y0, \ self.x1, self.y1) self.lpos = 0 self.dataoffset = 0 if self.type == 'mono': self.data = imageop.dither2mono(self.data, \ self.width, self.height) data = self.data[self.dataoffset:self.dataoffset+self.pktsize] lpos = self.lpos self.dataoffset = self.dataoffset + self.pktsize if self.type == 'mono': self.lpos = self.lpos + self.lpp*8 else: self.lpos = self.lpos + self.lpp return lpos, data