#! /ufs/guido/bin/sgi/python #! /ufs/guido/bin/sgi/python-405 # Capture a CMIF movie using the Indigo video library and board # The CMIF video file format is documented in cmif-film.ms. # Audio data is recorded in AIFF format, using the input sampling # rate, source and volume set by the audio panel, in mono, 8 # bits/sample. # Usage and help functions (keep this up-to-date if you change the program!) def usage(): print 'Usage: Vrec [options] [moviefile [audiofile]]' print print 'Options:' print '-a : record audio as well' print '-q queuesize : set the capture queue size (default 2)' print '-r rate : capture 1 out of every "rate" frames', \ '(default and min 2)' print '-w width : initial window width', \ '(default 256, use 0 for interactive placement)' print '-n : Don\'t write to file, only timing info' print '-d : drop fields if needed' print '-g bits : greyscale (2, 4 or 8 bits)' print '-G : 2-bit greyscale dithered' print '-m : monochrome dithered' print '-M value : monochrome tresholded with value' print '-f : Capture fields (in stead of frames)' print '-P frames : preallocate space for "frames" frames' print 'moviefile : here goes the movie data (default film.video)' print 'audiofile : with -a, here goes the audio data', \ '(default film.aiff)' def help(): print 'Press the left mouse button to start recording, release it to' print 'end recording. You can record as many times as you wish, but' print 'each recording overwrites the output file(s) -- only the last' print 'recording is kept.' print print 'Press ESC or use the window manager Quit or Close window option' print 'to quit. If you quit before recording anything, the output' print 'file(s) are not touched.' # Imported modules import sys sys.path.append('/ufs/guido/src/video') import sv, SV import VFile import gl, GL, DEVICE import al, AL import time import posix import getopt import string import imageop import sgi # Main program def main(): format = SV.RGB8_FRAMES qsize = 2 audio = 0 rate = 2 width = 0 norecord = 0 drop = 0 mono = 0 grey = 0 greybits = 0 monotreshold = -1 fields = 0 preallocspace = 0 # Parse command line try: opts, args = getopt.getopt(sys.argv[1:], 'aq:r:w:ndg:mM:GfP:') except getopt.error, msg: sys.stdout = sys.stderr print 'Error:', msg, '\n' usage() sys.exit(2) # Interpret options try: for opt, arg in opts: if opt == '-a': audio = 1 elif opt == '-q': qsize = string.atoi(arg) elif opt == '-r': rate = string.atoi(arg) if rate < 2: sys.stderr.write( \ '-r rate must be >= 2\n') sys.exit(2) elif opt == '-w': width = string.atoi(arg) elif opt == '-n': norecord = 1 elif opt == '-d': drop = 1 elif opt == '-g': grey = 1 greybits = string.atoi(arg) if not greybits in (2, 4, 8): sys.stderr.write( \ 'Only 2, 4 or 8 bit greyscale supported\n') sys.exit(2) elif opt == '-G': grey = 1 greybits = -2 elif opt == '-m': mono = 1 elif opt == '-M': mono = 1 monotreshold = string.atoi(arg) elif opt == '-f': fields = 1 elif opt == '-P': preallocspace = string.atoi(arg) except string.atoi_error: sys.stdout = sys.stderr print 'Option', opt, 'requires integer argument' sys.exit(2) # Check excess arguments # If norecord is on, refuse filename arguments if norecord: if args: sys.stdout = sys.stderr print 'With -n, no filename arguments are used\n' usage() sys.exit(2) elif args[2:]: sys.stdout = sys.stderr print 'Too many filename arguments\n' usage() sys.exit(2) # Process file arguments if args: filename = args[0] else: filename = 'film.video' if args[1:] and not audio: sys.stderr.write('-a turned on by appearance of 2nd file\n') audio = 1 if audio: if args[1:]: audiofilename = args[1] else: audiofilename = 'film.aiff' else: audiofilename = None if norecord: filename = audiofilename = '' # Open video v = sv.OpenVideo() # Determine maximum window size based on signal standard param = [SV.BROADCAST, 0] v.GetParam(param) if param[1] == SV.PAL: x = SV.PAL_XMAX y = SV.PAL_YMAX elif param[1] == SV.NTSC: x = SV.NTSC_XMAX y = SV.NTSC_YMAX else: print 'Unknown video standard', param[1] sys.exit(1) gl.foreground() gl.maxsize(x, y) gl.keepaspect(x, y) gl.stepunit(8, 6) if width: height = width*3/4 x1 = 150 x2 = x1 + width-1 y2 = 768-150 y1 = y2-height+1 gl.prefposition(x1, x2, y1, y2) win = gl.winopen(filename) if width: gl.maxsize(x, y) gl.keepaspect(x, y) gl.stepunit(8, 6) gl.winconstraints() x, y = gl.getsize() print x, 'x', y v.SetSize(x, y) if drop: param = [SV.FIELDDROP, 1, SV.GENLOCK, SV.GENLOCK_OFF] else: param = [SV.FIELDDROP, 0, SV.GENLOCK, SV.GENLOCK_ON] if mono or grey: param = param+[SV.COLOR, SV.MONO, SV.DITHER, 0, \ SV.INPUT_BYPASS, 1] else: param = param+[SV.COLOR, SV.DEFAULT_COLOR, SV.INPUT_BYPASS, 0] v.BindGLWindow(win, SV.IN_REPLACE) v.SetParam(param) gl.qdevice(DEVICE.LEFTMOUSE) gl.qdevice(DEVICE.WINQUIT) gl.qdevice(DEVICE.WINSHUT) gl.qdevice(DEVICE.ESCKEY) help() while 1: dev, val = gl.qread() if dev == DEVICE.LEFTMOUSE: if val == 1: info = format, x, y, qsize, rate record(v, info, filename, audiofilename,\ mono, grey, greybits, monotreshold, \ fields, preallocspace) elif dev == DEVICE.REDRAW: # Window resize (or move) x, y = gl.getsize() print x, 'x', y v.SetSize(x, y) v.BindGLWindow(win, SV.IN_REPLACE) elif dev in (DEVICE.ESCKEY, DEVICE.WINQUIT, DEVICE.WINSHUT): # Quit v.CloseVideo() gl.winclose(win) break # Record until the mouse is released (or any other GL event) # XXX audio not yet supported def record(v, info, filename, audiofilename, mono, grey, greybits, \ monotreshold, fields, preallocspace): import thread format, x, y, qsize, rate = info fps = 59.64 # Fields per second # XXX (Strange: need fps of Indigo monitor, not of PAL or NTSC!) tpf = 1000.0 / fps # Time per field in msec if filename: vout = VFile.VoutFile().init(filename) if mono: format = 'mono' elif grey and greybits == 8: format = 'grey' elif grey: format = 'grey'+`abs(greybits)` else: format = 'rgb8' vout.setformat(format) vout.setsize(x, y) if fields: vout.setpf(1, -2)) vout.writeheader() if preallocspace: print 'Preallocating space...' vout.prealloc(preallocspace) print 'done.' MAXSIZE = 20 # XXX should be a user option import Queue queue = Queue.Queue().init(MAXSIZE) done = thread.allocate_lock() done.acquire_lock() convertor = None if grey: if greybits == 2: convertor = imageop.grey2grey2 elif greybits == 4: convertor = imageop.grey2grey4 elif greybits == -2: convertor = imageop.dither2grey2 thread.start_new_thread(saveframes, \ (vout, queue, done, mono, monotreshold, convertor)) if audiofilename: audiodone = thread.allocate_lock() audiodone.acquire_lock() audiostop = [] initaudio(audiofilename, audiostop, audiodone) gl.wintitle('(rec) ' + filename) lastid = 0 t0 = time.millitimer() count = 0 ids = [] v.InitContinuousCapture(info) while not gl.qtest(): try: cd, id = v.GetCaptureData() except sv.error: #time.millisleep(10) # XXX is this necessary? sgi.nap(1) # XXX Try by Jack continue ids.append(id) id = id + 2*rate ## if id <> lastid + 2*rate: ## print lastid, id lastid = id count = count+1 if fields: data1, data2 = cd.GetFields() cd.UnlockCaptureData() if filename: queue.put((data1, int(id*tpf))) queue.put((data2, int((id+1)*tpf))) else: data = cd.InterleaveFields(1) cd.UnlockCaptureData() if filename: queue.put((data, int(id*tpf))) t1 = time.millitimer() gl.wintitle('(busy) ' + filename) print lastid, 'fields in', t1-t0, 'msec', print '--', 0.1 * int(lastid * 10000.0 / (t1-t0)), 'fields/sec' print 'Captured',count*2, 'fields,', print 0.1*int(count*20000.0/(t1-t0)), 'f/s', if lastid: print count*200.0/lastid, '%,', print count*rate*200.0/lastid, '% of wanted rate', print if ids: print 'Ids:', t0 = ids[0] del ids[0] for t1 in ids: print t1-t0, t0 = t1 print if filename and audiofilename: audiostop.append(None) audiodone.acquire_lock() v.EndContinuousCapture() if filename: queue.put(None) # Sentinel done.acquire_lock() gl.wintitle('(done) ' + filename) # Thread to save the frames to the file def saveframes(vout, queue, done, mono, monotreshold, convertor): while 1: x = queue.get() if not x: break data, t = x if convertor: data = convertor(data, len(data), 1) elif mono and monotreshold >= 0: data = imageop.grey2mono(data, len(data), 1,\ monotreshold) elif mono: data = imageop.dither2mono(data, len(data), 1) vout.writeframe(t, data, None) sys.stderr.write('Done writing video\n') vout.close() done.release_lock() # Initialize audio recording AQSIZE = 8000 # XXX should be a user option def initaudio(filename, stop, done): import thread, aiff afile = aiff.Aiff().init(filename, 'w') afile.nchannels = AL.MONO afile.sampwidth = AL.SAMPLE_8 params = [AL.INPUT_RATE, 0] al.getparams(AL.DEFAULT_DEVICE, params) print 'audio sampling rate =', params[1] afile.samprate = params[1] c = al.newconfig() c.setchannels(AL.MONO) c.setqueuesize(AQSIZE) c.setwidth(AL.SAMPLE_8) aport = al.openport(filename, 'r', c) thread.start_new_thread(audiorecord, (afile, aport, stop, done)) # Thread to record audio samples # XXX should use writesampsraw for efficiency, but then destroy doesn't # XXX seem to set the #samples in the header correctly def audiorecord(afile, aport, stop, done): while not stop: data = aport.readsamps(AQSIZE/2) ## afile.writesampsraw(data) afile.writesamps(data) del data afile.destroy() print 'Done writing audio' done.release_lock() # Don't forget to call the main program try: main() except KeyboardInterrupt: print '[Interrupt]'