/usr/share/pyshared/Photon/QuickTime.py is in photon 0.4.6-3.1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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# Parse a QuickTime movie file produced by many digital camera
#
# http://developer.apple.com/documentation/QuickTime/QTFF/
# QuickTime is trademark of Apple
#
import struct
from random import randrange
quicktime_verbose = 0
def read_headers(filename,size=65536):
h = None
f = open(filename,'rb')
if f:
h = f.read(size)
f.close()
return h
def open_atom(filename):
f = open(filename,'rb')
if f:
return f
return None
def close_atom(f):
f.close()
def read_atom(f):
h = f.read(8)
if len(h) < 8:
return None
atom = {}
s = struct.unpack(">L", h[0:4])
if s[0] < 8:
return None
atom['size'] = s[0] - 8
atom['type'] = h[4:8]
atom['offset'] = f.tell()
#atom['data'] = f.read(atom['size'] - 8)
return atom
def parse_PICT(f, atom):
print "PICT size:%d " % atom['size']
atom['data'] = f.read(atom['size'])
f.seek(-atom['size'],1)
return 1
def parse_stbl(f, node, info):
begin = f.tell()
current = 0
while current < node['size']:
atom = read_atom(f)
if atom == None:
break
current += atom['size'] + 8
if atom['type'] == 'stsd':
parse_stsd(f, atom, info)
elif atom['type'] == 'stsz':
parse_stsz(f, atom, info)
elif atom['type'] == 'stco':
parse_stco(f, atom, info)
elif atom['type'] == 'stsc':
parse_stsc(f, atom, info)
else:
f.seek(atom['size'],1)
f.seek(begin,0)
def parse_stsd(f, atom, info):
data = f.read(atom['size'])
(version, flags0, flags1, flags2, entries) = struct.unpack(">B3BL", data[0:8])
i = 8
while entries:
(size, format, refindex) = struct.unpack(">LL6xH", data[i:i+16])
#print "size:%d format:%c%c%c%c refindex=%d" % (size, format>>24, (format>>16)&255, (format>>8)&255, format&255, refindex)
if info.has_key('format'):
print "Warning i found severall different format, is it correct. Please send your video to the author"
return
info['format'] = format
(width, height) = struct.unpack(">HH", data[i+32:i+36])
info['width'] = width
info['height'] = height
i+=size
entries-=1
def parse_stsc(f, atom, info):
data = f.read(atom['size'])
(version, entries) = struct.unpack(">B3xL", data[0:8])
if quicktime_verbose>0:
print "stsc entries: %d" % (entries)
i = 8
while entries:
(firstchunk, sampleperchunk, sampleid) = struct.unpack(">LLL", data[i:i+12])
if quicktime_verbose>1:
print "firstchunk=%d sampleperchunk=%d sampleid=%d" % (firstchunk, sampleperchunk, sampleid)
firstchunk-=1
info['chunk_info'].append((firstchunk, sampleperchunk))
i+=12
entries-=1
def parse_stsz(f, atom, info):
data = f.read(atom['size'])
(version, defsize, entries) = struct.unpack(">B3xLL", data[0:12])
if quicktime_verbose>0:
print "stsz frames: %d" % (entries)
info['frames'] = entries
info['sample_size'] = struct.unpack(">%dL" % entries , data[12:])
def parse_stco(f, atom, info):
data = f.read(atom['size'])
(version, entries) = struct.unpack(">B3xL", data[0:8])
if quicktime_verbose>0:
print "stco entries: %d" % (entries)
info['chunks'] = entries
info['chunk_offset'] = struct.unpack(">%dL" % entries , data[8:])
#
# Parse an atom an recurse if this atom contains other atoms
# This is very small parser, so we didn't try to parse every track
# We stop after found the first video track
#
def parse_moov(f, parent, info):
begin = f.tell()
current = 0
while current < parent['size']:
atom = read_atom(f)
if atom == None:
break
if quicktime_verbose>0:
print "+ %s" % atom['type']
# Yes we have found a vmhd chunk, so this movie have a video track
if atom['type'] == 'vmhd':
info['video_chunk'] = parent
if info['video_chunk'] != None and info['video_chunk'] == parent:
if atom['type'] == 'stbl':
parse_stbl(f, parent, info)
if atom['type'] in ('mdia', 'mvhd', 'trak', 'minf', 'mdhd', 'hdlr', 'stbl'):
parse_moov(f, atom, info)
current += atom['size'] + 8
f.seek(atom['size'],1)
f.seek(begin,0)
def parse_atom(f, parent, prefix):
begin = f.tell()
current = 0
while current < parent['size']:
atom = read_atom(f)
if atom == None:
break
print "%s \"%s\" (size=%d)" % (prefix, atom['type'], atom['size'])
if atom['type'] in ('mdia', 'mvhd', 'trak', 'minf', 'mdhd', 'hdlr', 'stbl'):
parse_atom(f, atom, prefix + '+')
current += atom['size'] + 8
f.seek(atom['size'],1)
f.seek(begin,0)
def extract_jpeg_files(moviefile, info, basename="/tmp/photon%8.8d.jpg"):
f = open_atom(moviefile)
frame = 0
for chunk in range(info['chunks']):
if quicktime_verbose>1:
print "chunks: %d => offset: %d" % (chunk, info['chunk_offset'][chunk])
f.seek(info['chunk_offset'][chunk],0)
samplesbychunk = -1
for chunk_info in info['chunk_info']:
if chunk_info[0] <= chunk:
samplesbychunk = chunk_info[1]
else:
pass
for jjj in range(samplesbychunk):
size = info['sample_size'][frame]
out = open(basename % frame, "wb");
h = f.read(2)
if h[0:2] == '\xff\xd8':
out.write(h)
out.write(f.read(size-2))
else:
print "Warning this is not a jpeg file (frame=%d)" % frame
out.close()
frame+=1
#
# Extract one image from the file
#
def extract_jpeg_file(moviefile, info, outfile, frame):
f = open_atom(moviefile)
# Calculate the offset for our image
chunk_group = 0
chunk_frame_start = 0
chunk_frame_end = 0
chunk_frames = 0
for chunk_info in info['chunk_info']:
if chunk_frames == 0:
chunk_group = chunk_info[0]
chunk_frames = chunk_info[1]
else:
chunk_frame_end = chunk_frame_start + (chunk_info[0] - chunk_group) * chunk_frames
if frame >= chunk_frame_start and frame < chunk_frame_end:
break
chunk_frame_start = chunk_frame_end
chunk_group = chunk_info[0]
chunk_frames = chunk_info[1]
(chunk, offimg) = divmod(frame - chunk_frame_start, chunk_frames)
chunk += chunk_group
if quicktime_verbose>1:
print "%4.4d | chunk=%d /// offimg=%d" % (frame, chunk, offimg)
offset = info['chunk_offset'][chunk]
for j in xrange(offimg):
offset += info['sample_size'][frame-j-1]
# Go to the beginning of the image
f.seek(offset,0)
size = info['sample_size'][frame]
out = open(outfile, "wb")
h = f.read(2)
if h[0:2] == '\xff\xd8': # To be sure that we extract a Jpeg file
out.write(h)
out.write(f.read(size-2))
else:
print "Warning: this is not a jpeg file (frame=%d)" % frame
#out.write(f.read(size))
out.close()
close_atom(f)
def __identify(filename):
if struct.calcsize(">L") != 4:
print "A long is not equal to 4 bytes with your python installation. Abording"
return None
h = read_headers(filename,12)
if h == None:
return None
# is this a QuickTime file ?
if h[4:8] not in ('pnot', 'moov', 'mdat'):
return None
# Parse the file into atom (chunk), and try to find a
# mdat and moov chunk
f = open_atom(filename)
found_mdat = found_moov = 0
info = {}
info['chunk_info'] = list()
while True:
atom = read_atom(f)
if atom == None:
break
#print "Found a new atom \"%s\" (size=%d)" % (atom['type'], atom['size'])
if atom['type'] in ('pnot', 'PICT'):
pass
elif atom['type'] == 'mdat':
found_mdat = 1
info['mdat_offset'] = f.tell()
elif atom['type'] == 'moov':
found_moov = 1
info['video_chunk'] = None
parse_moov(f, atom, info)
if quicktime_verbose>0:
parse_atom(f, atom, "+")
else:
print "Abording unknow Atom type"
#break
f.seek(atom['size'],1)
close_atom(f)
if not (found_moov and found_mdat):
return None
if not info.has_key('format'):
return None
if info['format'] == 0x6a706567: # 'jpeg'
#print "It's a jpeg movie"
return info
return None
def identify(filename):
return __identify(filename)
def extract_random_picture(moviefile, pictfile):
video = __identify(moviefile)
if video == None:
return None
r = randrange(0, video['frames'])
extract_jpeg_file(moviefile, video, pictfile, r)
return True
def extract_picture(moviefile, pictfile, frame):
video = __identify(moviefile)
if video == None:
return None
extract_jpeg_file(moviefile, video, pictfile, frame)
return True
if __name__ == "__main__":
import sys
import QuickTime
if len(sys.argv) < 2:
print 'Usage: %s files...\n' % sys.argv[0]
sys.exit(0)
for filename in sys.argv[1:]:
info=QuickTime.identify(filename)
if info != None:
print "%s (format='%x', frames='%d')" % (filename,info['format'],info['frames'])
#extract_jpeg_files(filename, info)
for frame in xrange(info['frames']):
#for frame in xrange(1138,1142):
extract_jpeg_file(filename, info, "/tmp/photon%8.8d.jpg" % frame, frame)
else:
print "%s is not a Quicktime movie file" % filename
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