cpython/Demo/sgi/video/VFile.py

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# Classes to read and write CMIF video files.
# (For a description of the CMIF video format, see cmif-file.ms.)
# Layers of functionality:
#
# VideoParams: maintain essential parameters of a video file
# Displayer: display a frame in a window (with some extra parameters)
# Grabber: grab a frame from a window
# BasicVinFile: read a CMIF video file
# BasicVoutFile: write a CMIF video file
# VinFile: BasicVinFile + Displayer
# VoutFile: BasicVoutFile + Displayer + Grabber
#
# XXX Future extension:
# BasicVinoutFile: supports overwriting of individual frames
# Imported modules
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import sys
import gl
import GL
import colorsys
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# Exception raised for various occasions
Error = 'VFile.Error' # file format errors
CallError = 'VFile.CallError' # bad call
AssertError = 'VFile.AssertError' # internal malfunction
# Constants returned by gl.getdisplaymode(), from <gl/get.h>
DMRGB = 0
DMSINGLE = 1
DMDOUBLE = 2
DMRGBDOUBLE = 5
# Max nr. of colormap entries to use
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MAXMAP = 4096 - 256
# Parametrizations of colormap handling based on color system.
# (These functions are used via eval with a constructed argument!)
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):
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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)
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def conv_jpeg(r, g, b):
raise Error, 'Attempt to make RGB colormap (jpeg)'
conv_jpeggrey = conv_grey
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# Choose one of the above based upon a color system name
def choose_conversion(format):
try:
return eval('conv_' + format)
except:
raise Error, 'Unknown color system: ' + `format`
# Inverses of the above
def inv_grey(r, g, b):
y, i, q = colorsys.rgb_to_yiq(r, g, b)
return y, 0, 0
def inv_yiq(r, g, b):
y, i, q = colorsys.rgb_to_yiq(r, g, b)
return y, i/1.2 + 0.5, q + 0.5
def inv_hls(r, g, b):
h, l, s = colorsys.rgb_to_hls(r, g, b)
return l, h, s
def inv_hsv(r, g, b):
h, s, v = colorsys.rgb_to_hsv(r, g, b)
return v, h, s
def inv_rgb(r, g, b):
raise Error, 'Attempt to invert RGB colormap'
def inv_rgb8(r, g, b):
r = int(r*7.0)
g = int(g*7.0)
b = int(b*7.0)
rgb = ((r&7) << 5) | ((b&3) << 3) | (g&7)
return rgb / 255.0, 0, 0
def inv_jpeg(r, g, b):
raise Error, 'Attempt to invert RGB colormap (jpeg)'
inv_jpeggrey = inv_grey
# Choose one of the above based upon a color system name
def choose_inverse(format):
try:
return eval('inv_' + format)
except:
raise Error, 'Unknown color system: ' + `format`
# Predicate to see whether this is an entry level (non-XS) Indigo.
# If so we can lrectwrite 8-bit wide pixels into a window in RGB mode
def is_entry_indigo():
# XXX hack, hack. We should call gl.gversion() but that doesn't
# exist in earlier Python versions. Therefore we check the number
# of bitplanes *and* the size of the monitor.
xmax = gl.getgdesc(GL.GD_XPMAX)
if xmax <> 1024: return 0
ymax = gl.getgdesc(GL.GD_YPMAX)
if ymax != 768: return 0
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)
return (r, g, b) == (3, 3, 2)
# Routines to grab data, per color system (only a few really supported).
# (These functions are used via eval with a constructed argument!)
def grab_rgb(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, only grab rgb 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 rgb8 in single-buf rgbmode'
if pf <> 1 and pf <> 0:
raise Error, 'Sorry, can only grab rgb8 with packfactor 1'
if not is_entry_indigo():
raise Error, 'Sorry, can only grab rgb8 on entry level Indigo'
# XXX Dirty Dirty here.
# XXX 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'
def grab_jpeg(w, h, pf):
# XXX Ought to grab rgb and compress it
raise Error, 'sorry, grabbing jpeg not implemented'
def grab_jpeggrey(w, h, pf):
raise Error, 'sorry, grabbing jpeggrey not implemented'
# Choose one of the above based upon a color system name
def choose_grabber(format):
try:
return eval('grab_' + format)
except:
raise Error, 'Unknown color system: ' + `format`
# Base class to manage video format parameters
class VideoParams:
# Initialize an instance.
# Set all parameters to something decent
# (except width and height are set to zero)
def init(self):
# Essential parameters
self.format = 'grey' # color system used
# Choose from: grey, rgb, rgb8, hsv, yiq, hls, jpeg, jpeggrey
self.width = 0 # width of frame
self.height = 0 # height of frame
self.packfactor = 1 # expansion using rectzoom
# if packfactor == 0, data is one 32-bit word/pixel;
# otherwise, data is one byte/pixel
self.c0bits = 8 # bits in first color dimension
self.c1bits = 0 # bits in second color dimension
self.c2bits = 0 # bits in third color dimension
self.offset = 0 # colormap index offset (XXX ???)
self.chrompack = 0 # set if separate chrominance data
return self
# Set the frame width and height (e.g. from gl.getsize())
def setsize(self, size):
self.width, self.height = size
# Retrieve the frame width and height (e.g. for gl.prefsize())
def getsize(self):
return (self.width, self.height)
# Set all parameters.
# This does limited validity checking;
# if the check fails no parameters are changed
def setinfo(self, values):
(self.format, self.width, self.height, self.packfactor,\
self.c0bits, self.c1bits, self.c2bits, self.offset, \
self.chrompack) = values
# Retrieve all parameters in a format suitable for a subsequent
# call to setinfo()
def getinfo(self):
return (self.format, self.width, self.height, self.packfactor,\
self.c0bits, self.c1bits, self.c2bits, self.offset, \
self.chrompack)
# Write the relevant bits to stdout
def printinfo(self):
print 'Format: ', self.format
print 'Size: ', self.width, 'x', self.height
print 'Pack: ', self.packfactor, '; chrom:', self.chrompack
print 'Bits: ', self.c0bits, self.c1bits, self.c2bits
print 'Offset: ', self.offset
# Class to display video frames in a window.
# It is the caller's responsibility to ensure that the correct window
# is current when using showframe(), initcolormap(), clear() and clearto()
class Displayer(VideoParams):
# Initialize an instance.
# This does not need a current window
def init(self):
self = VideoParams.init(self)
# User-settable parameters
self.magnify = 1.0 # frame magnification factor
self.xorigin = 0 # x frame offset
self.yorigin = 0 # y frame offset (from bottom)
self.quiet = 0 # if set, don't print messages
self.fallback = 1 # allow fallback to grey
# Internal flags
self.colormapinited = 0 # must initialize window
self.skipchrom = 0 # don't skip chrominance data
self.color0 = None # magic, used by clearto()
self.fixcolor0 = 0 # don't need to fix color0
return self
# setinfo() must reset some internal flags
def setinfo(self, values):
VideoParams.setinfo(self, values)
self.colormapinited = 0
self.skipchrom = 0
self.color0 = None
self.fixcolor0 = 0
# Show one frame, initializing the window if necessary
def showframe(self, data, chromdata):
self.showpartframe(data, chromdata, \
(0,0,self.width,self.height))
def showpartframe(self, data, chromdata, (x,y,w,h)):
pf = self.packfactor
if self.format in ('jpeg', 'jpeggrey'):
import jpeg
data, width, height, bytes = jpeg.decompress(data)
if self.format == 'jpeg':
b = 4
p = 1
else:
b = 1
p = pf
if (width, height, bytes) <> (w/p, h/p, b):
raise Error, 'jpeg data has wrong size'
if not self.colormapinited:
self.initcolormap()
if self.fixcolor0:
gl.mapcolor(self.color0)
self.fixcolor0 = 0
factor = self.magnify
if pf: factor = factor * pf
if chromdata and not self.skipchrom:
cp = self.chrompack
cx = int(x*factor*cp) + self.xorigin
cy = int(y*factor*cp) + self.yorigin
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(cx, cy, cx + cw - 1, cy + ch - 1, \
chromdata)
#
if pf:
gl.writemask((1 << self.c0bits) - 1)
gl.pixmode(GL.PM_SIZE, 8)
w = w/pf
h = h/pf
x = x/pf
y = y/pf
gl.rectzoom(factor, factor)
x = int(x*factor)+self.xorigin
y = int(y*factor)+self.yorigin
gl.lrectwrite(x, y, x + w - 1, y + h - 1, data)
gl.gflush()
# Initialize the window: set RGB or colormap mode as required,
# fill in the colormap, and clear the window
def initcolormap(self):
self.colormapinited = 1
self.color0 = None
self.fixcolor0 = 0
if self.format in ('rgb', 'jpeg'):
gl.RGBmode()
gl.gconfig()
gl.RGBcolor(200, 200, 200) # XXX rather light grey
gl.clear()
return
# This only works on an Entry-level Indigo from IRIX 4.0.5
if self.format == 'rgb8' and is_entry_indigo() and \
gl.gversion() == 'GL4DLG-4.0.': # Note trailing '.'!
gl.RGBmode()
gl.gconfig()
gl.RGBcolor(200, 200, 200) # XXX rather light grey
gl.clear()
gl.pixmode(GL.PM_SIZE, 8)
return
gl.cmode()
gl.gconfig()
self.skipchrom = 0
if self.offset == 0:
self.mask = 0x7ff
else:
self.mask = 0xfff
if not self.quiet:
sys.stderr.write('Initializing color map...')
self._initcmap()
gl.clear()
if not self.quiet:
sys.stderr.write(' Done.\n')
# Clear the window to a default color
def clear(self):
if not self.colormapinited: raise CallError
if gl.getdisplaymode() in (DMRGB, DMRGBDOUBLE):
gl.RGBcolor(200, 200, 200) # XXX rather light grey
gl.clear()
return
gl.writemask(0xffffffff)
gl.clear()
# Clear the window to a given RGB color.
# This may steal the first color index used; the next call to
# showframe() will restore the intended mapping for that index
def clearto(self, r, g, b):
if not self.colormapinited: raise CallError
if gl.getdisplaymode() in (DMRGB, DMRGBDOUBLE):
gl.RGBcolor(r, g, b)
gl.clear()
return
index = self.color0[0]
self.fixcolor0 = 1
gl.mapcolor(index, r, g, b)
gl.writemask(0xffffffff)
gl.clear()
gl.gflush()
# Do the hard work for initializing the colormap (internal).
# This also sets the current color to the first color index
# used -- the caller should never change this since it is used
# by clear() and clearto()
def _initcmap(self):
convcolor = choose_conversion(self.format)
maxbits = gl.getgdesc(GL.GD_BITS_NORM_SNG_CMODE)
if maxbits > 11:
maxbits = 11
c0bits = self.c0bits
c1bits = self.c1bits
c2bits = self.c2bits
if c0bits+c1bits+c2bits > maxbits:
if self.fallback and c0bits < maxbits:
# Cannot display frames in this mode, use grey
self.skipchrom = 1
c1bits = c2bits = 0
convcolor = choose_conversion('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<<maxbits)-1)
self.color0 = None
self.fixcolor0 = 0
for c0 in range(maxc0):
c0v = c0/float(maxc0-1)
for c1 in range(maxc1):
if maxc1 == 1:
c1v = 0
else:
c1v = c1/float(maxc1-1)
for c2 in range(maxc2):
if maxc2 == 1:
c2v = 0
else:
c2v = c2/float(maxc2-1)
index = offset + c0 + (c1<<c0bits) + \
(c2 << (c0bits+c1bits))
if index < MAXMAP:
rv, gv, bv = \
convcolor(c0v, c1v, c2v)
r, g, b = int(rv*255.0), \
int(gv*255.0), \
int(bv*255.0)
gl.mapcolor(index, r, g, b)
if self.color0 == None:
self.color0 = \
index, r, g, b
# Permanently make the first color index current
gl.color(self.color0[0])
gl.gflush() # send the colormap changes to the X server
# Class to grab frames from a window.
# (This has fewer user-settable parameters than Displayer.)
# It is the caller's responsibility to initialize the window and to
# ensure that it is current when using grabframe()
class Grabber(VideoParams):
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# XXX The init() method of VideoParams is just fine, for now
# Grab a frame.
# Return (data, chromdata) just like getnextframe().
def grabframe(self):
grabber = choose_grabber(self.format)
return grabber(self.width, self.height, self.packfactor)
# Read a CMIF video file header.
# Return (version, values) where version is 0.0, 1.0, 2.0 or 3.0,
# and values is ready for setinfo().
# Raise Error if there is an error in the info
def readfileheader(fp, filename):
#
# Get identifying header
#
line = fp.readline(20)
if line == 'CMIF video 0.0\n':
version = 0.0
elif line == 'CMIF video 1.0\n':
version = 1.0
elif line == 'CMIF video 2.0\n':
version = 2.0
elif line == 'CMIF video 3.0\n':
version = 3.0
else:
# XXX Could be version 0.0 without identifying header
raise Error, \
filename + ': Unrecognized file header: ' + `line`[:20]
#
# Get color encoding info
# (The format may change to 'rgb' later when packfactor == 0)
#
if version <= 1.0:
format = 'grey'
c0bits, c1bits, c2bits = 8, 0, 0
chrompack = 0
offset = 0
elif version == 2.0:
line = fp.readline()
try:
c0bits, c1bits, c2bits, chrompack = eval(line[:-1])
except:
raise Error, filename + ': Bad 2.0 color info'
if c1bits or c2bits:
format = 'yiq'
else:
format = 'grey'
offset = 0
elif version == 3.0:
line = fp.readline()
try:
format, rest = eval(line[:-1])
except:
raise Error, filename + ': Bad 3.0 color info'
if format in ('rgb', 'jpeg'):
c0bits = c1bits = c2bits = 0
chrompack = 0
offset = 0
elif format in ('grey', 'jpeggrey'):
c0bits = rest
c1bits = c2bits = 0
chrompack = 0
offset = 0
else:
# XXX ought to check that the format is valid
try:
c0bits, c1bits, c2bits, chrompack, offset = rest
except:
raise Error, filename + ': Bad 3.0 color info'
#
# Get frame geometry info
#
line = fp.readline()
try:
x = eval(line[:-1])
except:
raise Error, filename + ': Bad (w,h,pf) info'
if type(x) <> type(()):
raise Error, filename + ': Bad (w,h,pf) info'
if len(x) == 3:
width, height, packfactor = x
if packfactor == 0 and version < 3.0:
format = 'rgb'
c0bits = 0
elif len(x) == 2 and version <= 1.0:
width, height = x
packfactor = 2
else:
raise Error, filename + ': Bad (w,h,pf) info'
if packfactor > 1:
width = (width / packfactor) * packfactor
height = (height / packfactor) * packfactor
#
# Return (version, values)
#
values = (format, width, height, packfactor, \
c0bits, c1bits, c2bits, offset, chrompack)
return (version, values)
# Read a *frame* header -- separate functions per version.
# Return (timecode, datasize, chromdatasize).
# Raise EOFError if end of data is reached.
# Raise Error if data is bad.
def readv0frameheader(fp):
line = fp.readline()
if not line or line == '\n': raise EOFError
try:
t = eval(line[:-1])
except:
raise Error, 'Bad 0.0 frame header'
return (t, 0, 0)
def readv1frameheader(fp):
line = fp.readline()
if not line or line == '\n': raise EOFError
try:
t, datasize = eval(line[:-1])
except:
raise Error, 'Bad 1.0 frame header'
return (t, datasize, 0)
def readv2frameheader(fp):
line = fp.readline()
if not line or line == '\n': raise EOFError
try:
t, datasize = eval(line[:-1])
except:
raise Error, 'Bad 2.0 frame header'
return (t, datasize, 0)
def readv3frameheader(fp):
line = fp.readline()
if not line or line == '\n': raise EOFError
try:
t, datasize, chromdatasize = x = eval(line[:-1])
except:
raise Error, 'Bad 3.0 frame header'
return x
# Write a CMIF video file header (always version 3.0)
def writefileheader(fp, values):
(format, width, height, packfactor, \
c0bits, c1bits, c2bits, offset, chrompack) = values
#
# Write identifying header
#
fp.write('CMIF video 3.0\n')
#
# Write color encoding info
#
if format in ('rgb', 'jpeg'):
data = (format, 0)
elif format in ('grey', 'jpeggrey'):
data = (format, c0bits)
else:
data = (format, (c0bits, c1bits, c2bits, chrompack, offset))
fp.write(`data`+'\n')
#
# Write frame geometry info
#
if format in ('rgb', 'jpeg'):
packfactor = 0
elif packfactor == 0:
packfactor = 1
data = (width, height, packfactor)
fp.write(`data`+'\n')
# Basic class for reading CMIF video files
class BasicVinFile(VideoParams):
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def init(self, filename):
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if filename == '-':
fp = sys.stdin
else:
fp = open(filename, 'r')
return self.initfp(fp, filename)
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def initfp(self, fp, filename):
self = VideoParams.init(self)
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self.fp = fp
self.filename = filename
self.version, values = readfileheader(fp, filename)
VideoParams.setinfo(self, values)
if self.version == 0.0:
w, h, pf = self.width, self.height, self.packfactor
if pf == 0:
self._datasize = w*h*4
else:
self._datasize = (w/pf) * (h/pf)
self._readframeheader = self._readv0frameheader
elif self.version == 1.0:
self._readframeheader = readv1frameheader
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elif self.version == 2.0:
self._readframeheader = readv2frameheader
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elif self.version == 3.0:
self._readframeheader = readv3frameheader
else:
raise Error, \
filename + ': Bad version: ' + `self.version`
self.framecount = 0
self.atframeheader = 1
self.eofseen = 0
self.errorseen = 0
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try:
self.startpos = self.fp.tell()
self.canseek = 1
except IOError:
self.startpos = -1
self.canseek = 0
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return self
def _readv0frameheader(self, fp):
t, ds, cs = readv0frameheader(fp)
ds = self._datasize
return (t, ds, cs)
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def close(self):
self.fp.close()
del self.fp
del self._readframeheader
def setinfo(self, values):
raise CallError # Can't change info of input file!
def setsize(self, size):
raise CallError # Can't change info of input file!
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def rewind(self):
if not self.canseek:
raise Error, self.filename + ': can\'t seek'
self.fp.seek(self.startpos)
self.framecount = 0
self.atframeheader = 1
self.eofseen = 0
self.errorseen = 0
def warmcache(self):
print '[BasicVinFile.warmcache() not implemented]'
def printinfo(self):
print 'File: ', self.filename
print 'Size: ', getfilesize(self.filename)
print 'Version: ', self.version
VideoParams.printinfo(self)
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def getnextframe(self):
t, ds, cs = self.getnextframeheader()
data, cdata = self.getnextframedata(ds, cs)
return (t, data, cdata)
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def skipnextframe(self):
t, ds, cs = self.getnextframeheader()
self.skipnextframedata(ds, cs)
return t
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def getnextframeheader(self):
if self.eofseen: raise EOFError
if self.errorseen: raise CallError
if not self.atframeheader: raise CallError
self.atframeheader = 0
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try:
return self._readframeheader(self.fp)
except Error, msg:
self.errorseen = 1
# Patch up the error message
raise Error, self.filename + ': ' + msg
except EOFError:
self.eofseen = 1
raise EOFError
def getnextframedata(self, ds, cs):
if self.eofseen: raise EOFError
if self.errorseen: raise CallError
if self.atframeheader: raise CallError
if ds:
data = self.fp.read(ds)
if len(data) < ds:
self.eofseen = 1
raise EOFError
else:
data = ''
if cs:
cdata = self.fp.read(cs)
if len(cdata) < cs:
self.eofseen = 1
raise EOFError
else:
cdata = ''
self.atframeheader = 1
self.framecount = self.framecount + 1
return (data, cdata)
def skipnextframedata(self, ds, cs):
if self.eofseen: raise EOFError
if self.errorseen: raise CallError
if self.atframeheader: raise CallError
# Note that this won't raise EOFError for a partial frame
# since there is no easy way to tell whether a seek
# ended up beyond the end of the file
if self.canseek:
self.fp.seek(ds + cs, 1) # Relative seek
else:
dummy = self.fp.read(ds + cs)
del dummy
self.atframeheader = 1
self.framecount = self.framecount + 1
# Subroutine to return a file's size in bytes
def getfilesize(filename):
import os, stat
try:
st = os.stat(filename)
return st[stat.ST_SIZE]
except os.error:
return 0
# Derived class implementing random access and index cached in the file
class RandomVinFile(BasicVinFile):
def initfp(self, fp, filename):
self = BasicVinFile.initfp(self, fp, filename)
self.index = []
return self
def warmcache(self):
if len(self.index) == 0:
try:
self.readcache()
except Error:
self.buildcache()
else:
print '[RandomVinFile.warmcache(): too late]'
self.rewind()
def buildcache(self):
self.index = []
self.rewind()
while 1:
try: dummy = self.skipnextframe()
except EOFError: break
self.rewind()
def writecache(self):
# Raises IOerror if the file is not seekable & writable!
import marshal
if len(self.index) == 0:
self.buildcache()
if len(self.index) == 0:
raise Error, self.filename + ': No frames'
self.fp.seek(0, 2)
self.fp.write('\n/////CMIF/////\n')
pos = self.fp.tell()
data = `pos`
data = '\n-*-*-CMIF-*-*-\n' + data + ' '*(15-len(data)) + '\n'
try:
marshal.dump(self.index, self.fp)
self.fp.write(data)
self.fp.flush()
finally:
self.rewind()
def readcache(self):
# Raises Error if there is no cache in the file
import marshal
if len(self.index) <> 0:
raise CallError
self.fp.seek(-32, 2)
data = self.fp.read()
if data[:16] <> '\n-*-*-CMIF-*-*-\n' or data[-1:] <> '\n':
self.rewind()
raise Error, self.filename + ': No cache'
pos = eval(data[16:-1])
self.fp.seek(pos)
try:
self.index = marshal.load(self.fp)
except TypeError:
self.rewind()
raise Error, self.filename + ': Bad cache'
self.rewind()
def getnextframeheader(self):
if self.framecount < len(self.index):
return self._getindexframeheader(self.framecount)
if self.framecount > len(self.index):
raise AssertError, \
'managed to bypass index?!?'
rv = BasicVinFile.getnextframeheader(self)
if self.canseek:
pos = self.fp.tell()
self.index.append(rv, pos)
return rv
def getrandomframe(self, i):
t, ds, cs = self.getrandomframeheader(i)
data, cdata = self.getnextframedata()
return t, ds, cs
def getrandomframeheader(self, i):
if i < 0: raise ValueError, 'negative frame index'
if not self.canseek:
raise Error, self.filename + ': can\'t seek'
if i < len(self.index):
return self._getindexframeheader(i)
if len(self.index) > 0:
rv = self.getrandomframeheader(len(self.index)-1)
else:
self.rewind()
rv = self.getnextframeheader()
while i > self.framecount:
self.skipnextframedata()
rv = self.getnextframeheader()
return rv
def _getindexframeheader(self, i):
(rv, pos) = self.index[i]
self.fp.seek(pos)
self.framecount = i
self.atframeheader = 0
self.eofseen = 0
self.errorseen = 0
return rv
# Basic class for writing CMIF video files
class BasicVoutFile(VideoParams):
def init(self, filename):
if filename == '-':
fp = sys.stdout
else:
fp = open(filename, 'w')
return self.initfp(fp, filename)
def initfp(self, fp, filename):
self = VideoParams.init(self)
self.fp = fp
self.filename = filename
self.version = 3.0 # In case anyone inquries
self.headerwritten = 0
return self
def flush(self):
self.fp.flush()
def close(self):
self.fp.close()
del self.fp
def setinfo(self, values):
if self.headerwritten: raise CallError
VideoParams.setinfo(self, values)
def writeheader(self):
if self.headerwritten: raise CallError
writefileheader(self.fp, self.getinfo())
self.headerwritten = 1
self.atheader = 1
self.framecount = 0
def rewind(self):
self.fp.seek(0)
self.headerwritten = 0
self.atheader = 1
self.framecount = 0
def printinfo(self):
print 'File: ', self.filename
VideoParams.printinfo(self)
def writeframe(self, t, data, cdata):
if data: ds = len(data)
else: ds = 0
if cdata: cs = len(cdata)
else: cs = 0
self.writeframeheader(t, ds, cs)
self.writeframedata(data, cdata)
def writeframeheader(self, t, ds, cs):
if not self.headerwritten: self.writeheader()
if not self.atheader: raise CallError
data = `(t, ds, cs)`
n = len(data)
if n < 63: data = data + ' '*(63-n)
self.fp.write(data + '\n')
self.atheader = 0
def writeframedata(self, data, cdata):
if not self.headerwritten or self.atheader: raise CallError
if data: self.fp.write(data)
if cdata: self.fp.write(cdata)
self.atheader = 1
self.framecount = self.framecount + 1
# Classes that combine files with displayers and/or grabbers:
class VinFile(RandomVinFile, Displayer):
def initfp(self, fp, filename):
self = Displayer.init(self)
return RandomVinFile.initfp(self, fp, filename)
def shownextframe(self):
t, data, cdata = self.getnextframe()
self.showframe(data, cdata)
return t
class VoutFile(BasicVoutFile, Displayer, Grabber):
def initfp(self, fp, filename):
self = Displayer.init(self)
## self = Grabber.init(self) # XXX not needed
return BasicVoutFile.initfp(self, fp, filename)
# Simple test program (VinFile only)
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def test():
import time
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if sys.argv[1:]: filename = sys.argv[1]
else: filename = 'film.video'
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vin = VinFile().init(filename)
vin.printinfo()
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gl.foreground()
gl.prefsize(vin.getsize())
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wid = gl.winopen(filename)
vin.initcolormap()
t0 = time.millitimer()
while 1:
try: t, data, cdata = vin.getnextframe()
except EOFError: break
dt = t0 + t - time.millitimer()
if dt > 0: time.millisleep(dt)
vin.showframe(data, cdata)
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time.sleep(2)