#! /usr/bin/env python # Play CMIF movie files # Help function def help(): print 'Usage: Vplay [options] [file] ...' print print 'Options:' print '-M magnify : magnify the image by the given factor' print '-d : write some debug stuff on stderr' print '-l : loop, playing the movie over and over again' print '-m delta : drop frames closer than delta seconds (default 0.)' print '-n : don\'t wait after each file' print '-q : quiet, no informative messages' print '-r delta : regenerate input time base delta seconds apart' print '-s speed : speed change factor (default 1.0)' print '-t : use a 2nd thread for read-ahead' print '-x left : window offset from left of screen' print '-y top : window offset from top of screen' print '-w width : window width' print '-h height : window height' print '-b color : background color (white,black or (r,g,b))' print 'file ... : file(s) to play; default film.video' print print 'User interface:' print 'Press the left mouse button to stop or restart the movie.' print 'Press ESC or use the window manager Close or Quit command' print 'to close the window and play the next file (if any).' # Imported modules import sys sys.path.append('/ufs/guido/src/video') # Increase chance of finding VFile import VFile import time import gl, GL from DEVICE import REDRAW, ESCKEY, LEFTMOUSE, WINSHUT, WINQUIT import getopt import string # Global options debug = 0 looping = 0 magnify = 1 mindelta = 0 nowait = 0 quiet = 0 regen = None speed = 1.0 threading = 0 xoff = yoff = None xwsiz = ywsiz = None bgcolor = None # Main program -- mostly command line parsing def main(): global debug, looping, magnify, mindelta, nowait, quiet, regen, speed global threading, xoff, yoff, xwsiz, ywsiz, bgcolor # Parse command line try: opts, args = getopt.getopt(sys.argv[1:], \ 'M:dlm:nqr:s:tx:y:w:h:b:') except getopt.error, msg: sys.stdout = sys.stderr print 'Error:', msg, '\n' help() sys.exit(2) # Interpret options try: for opt, arg in opts: if opt == '-M': magnify = float(eval(arg)) if opt == '-d': debug = debug + 1 if opt == '-l': looping = 1 if opt == '-m': mindelta = float(eval(arg)) if opt == '-n': nowait = 1 if opt == '-q': quiet = 1 if opt == '-r': regen = float(eval(arg)) if opt == '-s': try: speed = float(eval(arg)) except: sys.stdout = sys.stderr print 'Option -s needs float argument' sys.exit(2) if opt == '-t': try: import thread threading = 1 except ImportError: print 'Sorry, this version of Python', print 'does not support threads:', print '-t ignored' if opt == '-x': xoff = string.atoi(arg) if opt == '-y': yoff = string.atoi(arg) if opt == '-w': xwsiz = string.atoi(arg) if opt == '-h': ywsiz = string.atoi(arg) if opt == '-b': if arg == 'black': bgcolor = (0,0,0) elif arg == 'white': bgcolor = (255,255,255) else: try: bgcolor = eval(arg) xxr, xxg, xxb = bgcolor except: print '-b needs (r,g,b) tuple' sys.exit(2) except string.atoi_error: sys.stdout = sys.stderr print 'Option', opt, 'requires integer argument' sys.exit(2) # Check validity of certain options combinations if nowait and looping: print 'Warning: -n and -l are mutually exclusive; -n ignored' nowait = 0 if xoff <> None and yoff == None: print 'Warning: -x without -y ignored' if xoff == None and yoff <> None: print 'Warning: -y without -x ignored' # Process all files if not args: args = ['film.video'] sts = 0 for filename in args: sts = (process(filename) or sts) # Exit with proper exit status sys.exit(sts) # Process one movie file def process(filename): try: vin = VFile.VinFile(filename) except IOError, msg: sys.stderr.write(filename + ': I/O error: ' + `msg` + '\n') return 1 except VFile.Error, msg: sys.stderr.write(msg + '\n') return 1 except EOFError: sys.stderr.write(filename + ': EOF in video header\n') return 1 if not quiet: vin.printinfo() gl.foreground() width, height = int(vin.width * magnify), int(vin.height * magnify) xborder = yborder = 0 if xwsiz: vin.xorigin = (xwsiz - width)/2 width = xwsiz if ywsiz: vin.yorigin = (ywsiz - height)/2 height = ywsiz if xoff <> None and yoff <> None: scrheight = gl.getgdesc(GL.GD_YPMAX) gl.prefposition(xoff, xoff+width-1, \ scrheight-yoff-height, scrheight-yoff-1) else: gl.prefsize(width, height) win = gl.winopen(filename) gl.clear() if quiet: vin.quiet = 1 vin.initcolormap() if bgcolor: r, g, b = bgcolor vin.clearto(r,g,b) gl.qdevice(ESCKEY) gl.qdevice(WINSHUT) gl.qdevice(WINQUIT) gl.qdevice(LEFTMOUSE) stop = 0 while not stop: gl.wintitle(filename) stop = (playonce(vin) or nowait) gl.wintitle('(done) ' + filename) if not looping: while not stop: dev, val = gl.qread() if dev == REDRAW: if bgcolor: r,g,b = bgcolor vin.clearto(r,g,b) else: vin.clear() if dev == LEFTMOUSE and val == 1: break # Continue outer loop if dev == ESCKEY and val == 1 or \ dev in (WINSHUT, WINQUIT): stop = 1 # Set xoff, yoff for the next window from the current window global xoff, yoff xoff, yoff = gl.getorigin() width, height = gl.getsize() scrheight = gl.getgdesc(GL.GD_YPMAX) yoff = scrheight - yoff - height gl.winclose(win) return 0 # Play a movie once; return 1 if user wants to stop, 0 if not def playonce(vin): vin.rewind() vin.colormapinited = 1 vin.magnify = magnify if threading: MAXSIZE = 20 # Don't read ahead too much import thread import Queue queue = Queue.Queue(MAXSIZE) stop = [] thread.start_new_thread(read_ahead, (vin, queue, stop)) # Get the read-ahead thread going while queue.qsize() < MAXSIZE/2 and not stop: time.sleep(0.100) tin = 0 toffset = 0 oldtin = 0 told = 0 nin = 0 nout = 0 nlate = 0 nskipped = 0 data = None tlast = t0 = time.time() while 1: if gl.qtest(): dev, val = gl.qread() if dev == ESCKEY and val == 1 or \ dev in (WINSHUT, WINQUIT) or \ dev == LEFTMOUSE and val == 1: if debug: sys.stderr.write('\n') if threading: stop.append(None) while 1: item = queue.get() if item == None: break return (dev != LEFTMOUSE) if dev == REDRAW: gl.reshapeviewport() if data: vin.showframe(data, cdata) if threading: if debug and queue.empty(): sys.stderr.write('.') item = queue.get() if item == None: break tin, data, cdata = item else: try: tin, size, csize = vin.getnextframeheader() except EOFError: break tin = tin*0.001 nin = nin+1 if tin+toffset < oldtin: print 'Fix reversed time:', oldtin, 'to', tin toffset = oldtin - tin tin = tin + toffset oldtin = tin if regen: tout = nin * regen else: tout = tin tout = tout / speed if tout - told < mindelta: nskipped = nskipped + 1 if not threading: vin.skipnextframedata(size, csize) else: if not threading: try: data, cdata = \ vin.getnextframedata(size, csize) except EOFError: if not quiet: print '[incomplete last frame]' break now = time.time() dt = (tout-told) - (now-tlast) told = tout if debug: sys.stderr.write(`round(dt, 3)` + ' ') if dt < 0: nlate = nlate + 1 if dt > 0: time.sleep(dt) now = time.time() tlast = now vin.showframe(data, cdata) nout = nout + 1 t1 = time.time() if debug: sys.stderr.write('\n') if quiet: return 0 print 'Recorded:', nin, 'frames in', round(tin, 3), 'sec.', if tin: print '-- average', round(nin/tin, 1), 'frames/sec', print if nskipped: print 'Skipped', nskipped, 'frames' tout = t1-t0 print 'Played:', nout, print 'frames in', round(tout, 3), 'sec.', if tout: print '-- average', round(nout/tout, 1), 'frames/sec', print if nlate: print 'There were', nlate, 'late frames' return 0 # Read-ahead thread def read_ahead(vin, queue, stop): try: while not stop: queue.put(vin.getnextframe()) except EOFError: pass queue.put(None) stop.append(None) # Don't forget to call the main program try: main() except KeyboardInterrupt: print '[Interrupt]'