# VFile -- two classes for Video Files. # VinFile -- for video input. # VoutFile -- for video output. import sys import gl import GL import colorsys Error = 'VFile.Error' # Exception # Missing from GL.py: DMRGB = 0 MAXMAP = 4096 - 256 def conv_grey(l,x,y): return colorsys.yiq_to_rgb(l,0,0) def conv_yiq (y,i,q): return colorsys.yiq_to_rgb(y, (i-0.5)*1.2, q-0.5) def conv_hls (l,h,s): return colorsys.hls_to_rgb(h,l,s) def conv_hsv (v,h,s): return colorsys.hsv_to_rgb(h,s,v) def conv_rgb (r,g,b): raise Error, 'Attempt to make RGB colormap' def conv_rgb8(rgb,d1,d2): rgb = int(rgb*255.0) r = (rgb >> 5) & 0x07 g = (rgb ) & 0x07 b = (rgb >> 3) & 0x03 return (r/7.0, g/7.0, b/3.0) # Class VinFile represents a video file used for input. # # It has the following methods: # init(filename) # initfp(fp, filename) # rewind() # getframe() # skipframe() # # The following read-only data members provide public information: # version # filename # width, height # packfactor # c0bits, c1bits, c2bits, chrompack # offset # format # # These writable data members provide additional parametrization: # magnify # xorigin, yorigin # fallback class VinFile: # init() and initfp() raise Error if the header is bad. # init() raises whatever open() raises if the file can't be opened. def init(self, filename): if filename == '-': return self.initfp(sys.stdin, filename) return self.initfp(open(filename, 'r'), filename) def initfp(self, fp, filename): self.colormapinited = 0 self.magnify = 1.0 self.xorigin = self.yorigin = 0 self.fallback = 1 self.skipchrom = 0 self.fp = fp self.filename = filename # line = self.fp.readline() if line == 'CMIF video 1.0\n': self.version = 1.0 elif line == 'CMIF video 2.0\n': self.version = 2.0 elif line == 'CMIF video 3.0\n': self.version = 3.0 else: raise Error, self.filename + ': bad video format' # if self.version < 2.0: self.c0bits, self.c1bits, self.c2bits = 8, 0, 0 self.chrompack = 0 self.offset = 0 self.format = 'grey' elif self.version == 2.0: line = self.fp.readline() try: self.c0bits, self.c1bits, self.c2bits, \ self.chrompack = eval(line[:-1]) if self.c1bits or self.c2bits: self.format = 'yiq' else: self.format = 'grey' self.offset = 0 except: raise Error, \ self.filename + ': bad 2.0 color info' elif self.version == 3.0: line = self.fp.readline() try: self.format, rest = eval(line[:-1]) if self.format == 'rgb': self.offset = 0 self.c0bits = 0 self.c1bits = 0 self.c2bits = 0 self.chrompack = 0 elif self.format == 'grey': self.offset = 0 self.c0bits = rest self.c1bits = self.c2bits = \ self.chrompack = 0 else: self.c0bits,self.c1bits,self.c2bits,\ self.chrompack,self.offset = rest except: raise Error, \ self.filename + ': bad 3.0 color info' try: self.convcolor = eval('conv_'+self.format) except: raise Error, \ self.filename + ': unknown colorsys ' + self.format # line = self.fp.readline() try: x = eval(line[:-1]) if self.version > 1.0 or len(x) == 3: self.width, self.height, self.packfactor = x if self.packfactor == 0: self.format = 'rgb' else: sef.width, self.height = x self.packfactor = 2 except: raise Error, self.filename + ': bad (w,h,pf) info' self.frameno = 0 self.framecache = [] self.hascache = 0 # return self def warmcache(self): if self.hascache: return n = 0 try: while 1: void = self.skipnextframe() n = n + 1 except EOFError: pass if not self.hascache: raise Error, 'Cannot warm cache' # # getinfo returns all info pertaining to a film. The returned tuple # can be passed to VoutFile.setinfo() # def getinfo(self): return (self.format, self.width, self.height, self.packfactor,\ self.c0bits, self.c1bits, self.c2bits, self.offset, \ self.chrompack) # rewind() raises Error if the header is bad (which can only # happen if the file was written to since opened). def rewind(self): self.fp.seek(0) x = self.initfp(self.fp, self.filename) def position(self): if self.frameno >= len(self.framecache): raise EOFError self.fp.seek(self.framecache[self.frameno][0]) # getnextframe() raises EOFError (built-in) if there is no next frame, # or if the next frame is broken. # So to getnextframeheader(), getnextframedata() and skipnextframe(). def getnextframe(self): time, size, chromsize = self.getnextframeheader() data, chromdata = self.getnextframedata(size, chromsize) return time, data, chromdata def getnextframedata(self, (size, chromsize)): if self.hascache: self.position() self.frameno = self.frameno + 1 data = self.fp.read(size) if len(data) <> size: raise EOFError if chromsize: chromdata = self.fp.read(chromsize) if len(chromdata) <> chromsize: raise EOFError else: chromdata = None # return data, chromdata def skipnextframe(self): time, size, chromsize = self.getnextframeheader() self.skipnextframedata(size, chromsize) return time def skipnextframedata(self, (size, chromsize)): if self.hascache: self.frameno = self.frameno + 1 return # Note that this won't raise EOFError for a partial frame. try: self.fp.seek(size + chromsize, 1) # Relative seek except: # Assume it's a pipe -- read the data to discard it dummy = self.fp.read(size + chromsize) def getnextframeheader(self): if self.hascache: if self.frameno >= len(self.framecache): raise EOFError return self.framecache[self.frameno][1] line = self.fp.readline() if not line: self.hascache = 1 raise EOFError # w, h, pf = self.width, self.height, self.packfactor try: x = eval(line[:-1]) if type(x) in (type(0), type(0.0)): time = x if pf == 0: size = w * h * 4 else: size = (w/pf) * (h/pf) elif len(x) == 2: time, size = x cp = self.chrompack if cp: cw = (w + cp - 1) / cp ch = (h + cp - 1) / cp chromsize = 2 * cw * ch else: chromsize = 0 else: time, size, chromsize = x except: raise Error, self.filename + ': bad frame header' cdata = (self.fp.tell(), (time, size, chromsize)) self.framecache.append(cdata) return time, size, chromsize def shownextframe(self): time, data, chromdata = self.getnextframe() self.showframe(data, chromdata) return time def showframe(self, (data, chromdata)): w, h, pf = self.width, self.height, self.packfactor if not self.colormapinited: self.initcolormap() factor = self.magnify if pf: factor = factor * pf if chromdata and not self.skipchrom: cp = self.chrompack cw = (w+cp-1)/cp ch = (h+cp-1)/cp gl.rectzoom(factor*cp, factor*cp) gl.pixmode(GL.PM_SIZE, 16) gl.writemask(self.mask - ((1 << self.c0bits) - 1)) gl.lrectwrite(self.xorigin, self.yorigin, \ self.xorigin + cw - 1, self.yorigin + ch - 1, \ chromdata) # if pf: gl.writemask((1 << self.c0bits) - 1) gl.pixmode(GL.PM_SIZE, 8) gl.rectzoom(factor, factor) w = w/pf h = h/pf gl.lrectwrite(self.xorigin, self.yorigin, \ self.xorigin + w - 1, self.yorigin + h - 1, data) def initcolormap(self): self.colormapinited = 1 if self.format == 'rgb': gl.RGBmode() gl.gconfig() return gl.cmode() gl.gconfig() self.skipchrom = 0 sys.stderr.write('Initializing color map...') self.initcmap() sys.stderr.write(' Done.\n') if self.offset == 0: gl.color(0x800) gl.clear() self.mask = 0x7ff else: self.mask = 0xfff gl.clear() def initcmap(self): maxbits = gl.getgdesc(GL.GD_BITS_NORM_SNG_CMODE) if maxbits > 11: maxbits = 11 c0bits, c1bits, c2bits = self.c0bits, self.c1bits, self.c2bits if c0bits+c1bits+c2bits > maxbits: if self.fallback and c0bits < maxbits: # Cannot display film in this mode, use mono self.skipchrom = 1 c1bits = c2bits = 0 self.convcolor = conv_grey else: raise Error, 'Sorry, '+`maxbits`+ \ ' bits max on this machine' maxc0 = 1 << c0bits maxc1 = 1 << c1bits maxc2 = 1 << c2bits if self.offset == 0 and maxbits == 11: offset = 2048 else: offset = self.offset if maxbits <> 11: offset = offset & ((1< DMRGB: raise Error, 'Sorry, can only grab rgb in single-buf rgbmode' if pf <> 1 and pf <> 0: raise Error, 'Sorry, only grab with packfactor=1' return gl.lrectread(0, 0, w-1, h-1), None def grab_rgb8(w, h, pf): if gl.getdisplaymode() <> DMRGB: raise Error, 'Sorry, can only grab rgb in single-buf rgbmode' if pf <> 1 and pf <> 0: raise Error, 'Sorry, can only grab with packfactor=1' r = gl.getgdesc(GL.GD_BITS_NORM_SNG_RED) g = gl.getgdesc(GL.GD_BITS_NORM_SNG_GREEN) b = gl.getgdesc(GL.GD_BITS_NORM_SNG_BLUE) if (r,g,b) <> (3,3,2): raise Error, 'Sorry, can only grab rgb8 on 8-bit Indigo' # Dirty Dirty here. Set buffer to cmap mode, grab image and set it back gl.cmode() gl.gconfig() gl.pixmode(GL.PM_SIZE, 8) data = gl.lrectread(0, 0, w-1, h-1) data = data[:w*h] # BUG FIX for python lrectread gl.RGBmode() gl.gconfig() gl.pixmode(GL.PM_SIZE, 32) return data, None def grab_grey(w, h, pf): raise Error, 'Sorry, grabbing grey not implemented' def grab_yiq(w, h, pf): raise Error, 'Sorry, grabbing yiq not implemented' def grab_hls(w, h, pf): raise Error, 'Sorry, grabbing hls not implemented' def grab_hsv(w, h, pf): raise Error, 'Sorry, grabbing hsv not implemented' # # The class VoutFile is not as well-designed (and tested) as VinFile. # Notably it will accept almost any garbage and write it to the video # output file # class VoutFile: def init(self, filename): if filename == '-': return self.initfp(sys.stdout, filename) else: return self.initfp(open(filename,'w'), filename) def initfp(self, fp, filename): self.fp = fp self.format = 'grey' self.width = self.height = 0 self.packfactor = 1 self.c0bits = 8 self.c1bits = self.c2bits = 0 self.offset = 0 self.chrompack = 0 self.headerwritten = 0 return self def close(self): self.fp.close() self = self.initfp(None, None) def setinfo(self, values): self.format, self.width, self.height, self.packfactor,\ self.c0bits, self.c1bits, self.c2bits, self.offset, \ self.chrompack = values def writeheader(self): self.headerwritten = 1 if self.format == 'rgb': self.packfactor = 0 elif self.packfactor == 0: self.packfactor = 1 self.fp.write('CMIF video 3.0\n') if self.format == 'rgb': data = ('rgb', 0) elif self.format == 'grey': data = ('grey', 0) else: data = (self.format, (self.c0bits, self.c1bits, \ self.c2bits, self.chrompack, self.offset)) self.fp.write(`data`+'\n') data = (self.width, self.height, self.packfactor) self.fp.write(`data`+'\n') try: self._grabber = eval('grab_' + self.format) except: raise Error, 'unknown colorsys: ' + self.format def writeframeheader(self, data): if not self.headerwritten: raise Error, 'Writing frame data before header' # XXXX Should we sanity check here? self.fp.write(`data`+'\n') def writeframedata(self, data, chromdata): # XXXX Check sizes here self.fp.write(data) if chromdata: self.fp.write(chromdata) def writeframe(self, time, data, chromdata): if chromdata: clen = len(chromdata) else: clen = 0 self.writeframeheader((time, len(data), clen)) self.writeframedata(data, chromdata) def grabframe(self): return self._grabber(self.width, self.height, self.packfactor) def test(): import sys, time filename = 'film.video' if sys.argv[1:]: filename = sys.argv[1] vin = VinFile().init(filename) print 'File: ', filename print 'Version: ', vin.version print 'Size: ', vin.width, 'x', vin.height print 'Pack: ', vin.packfactor, '; chrom:', vin.chrompack print 'Bits: ', vin.c0bits, vin.c1bits, vin.c2bits print 'Format: ', vin.format print 'Offset: ', vin.offset gl.foreground() gl.prefsize(vin.width, vin.height) wid = gl.winopen(filename) vin.initcolormap() t0 = time.millitimer() while 1: try: t, data, chromdata = vin.getnextframe() except EOFError: break dt = t + t0 - time.millitimer() if dt > 0: time.millisleep(dt) vin.showframe(data, chromdata) print 'Done.' time.sleep(2)