class MicImageFile(TiffImagePlugin.TiffImageFile):
format = "MIC"
format_description = "Microsoft Image Composer"
def _open(self):
# read the OLE directory and see if this is a likely
# to be a Microsoft Image Composer file
try:
self.ole = OleFileIO(self.fp)
except IOError:
raise SyntaxError("not an MIC file; invalid OLE file")
# find ACI subfiles with Image members (maybe not the
# best way to identify MIC files, but what the... ;-)
self.images = []
for file in self.ole.listdir():
if file[1:] and file[0][-4:] == ".ACI" and file[1] == "Image":
self.images.append(file)
# if we didn't find any images, this is probably not
# an MIC file.
if not self.images:
raise SyntaxError("not an MIC file; no image entries")
self.__fp = self.fp
self.frame = 0
if len(self.images) > 1:
self.category = Image.CONTAINER
self.seek(0)
def seek(self, frame):
try:
filename = self.images[frame]
except IndexError:
raise EOFError("no such frame")
self.fp = self.ole.openstream(filename)
TiffImagePlugin.TiffImageFile._open(self)
self.frame = frame
def tell(self):
return self.frame
def _open(self):
# read the OLE directory and see if this is a likely
# to be a Microsoft Image Composer file
try:
self.ole = OleFileIO(self.fp)
except IOError:
raise SyntaxError("not an MIC file; invalid OLE file")
# find ACI subfiles with Image members (maybe not the
# best way to identify MIC files, but what the... ;-)
self.images = []
for file in self.ole.listdir():
if file[1:] and file[0][-4:] == ".ACI" and file[1] == "Image":
self.images.append(file)
# if we didn't find any images, this is probably not
# an MIC file.
if not self.images:
raise SyntaxError("not an MIC file; no image entries")
self.__fp = self.fp
self.frame = 0
if len(self.images) > 1:
self.category = Image.CONTAINER
self.seek(0)
def _open(self):
#
# read the OLE directory and see if this is a likely
# to be a FlashPix file
try:
self.ole = OleFileIO(self.fp)
except IOError:
raise SyntaxError("not an FPX file; invalid OLE file")
if self.ole.root.clsid != "56616700-C154-11CE-8553-00AA00A1F95B":
raise SyntaxError("not an FPX file; bad root CLSID")
self._open_index(1)
class FpxImageFile(ImageFile.ImageFile):
format = "FPX"
format_description = "FlashPix"
def _open(self):
#
# read the OLE directory and see if this is a likely
# to be a FlashPix file
try:
self.ole = OleFileIO(self.fp)
except IOError:
raise SyntaxError("not an FPX file; invalid OLE file")
if self.ole.root.clsid != "56616700-C154-11CE-8553-00AA00A1F95B":
raise SyntaxError("not an FPX file; bad root CLSID")
self._open_index(1)
def _open_index(self, index = 1):
#
# get the Image Contents Property Set
prop = self.ole.getproperties([
"Data Object Store {0:06d}".format(index),
"\x05Image Contents"
])
# size (highest resolution)
self.size = prop[0x1000002], prop[0x1000003]
size = max(self.size)
i = 1
while size > 64:
size = size // 2
i = i + 1
self.maxid = i - 1
# mode. instead of using a single field for this, flashpix
# requires you to specify the mode for each channel in each
# resolution subimage, and leaves it to the decoder to make
# sure that they all match. for now, we'll cheat and assume
# that this is always the case.
id = self.maxid << 16
s = prop[0x2000002|id]
colors = []
for i in range(i32(s, 4)):
# note: for now, we ignore the "uncalibrated" flag
colors.append(i32(s, 8+i*4) & 0x7fffffff)
self.mode, self.rawmode = MODES[tuple(colors)]
# load JPEG tables, if any
self.jpeg = {}
for i in range(256):
id = 0x3000001|(i << 16)
if id in prop:
self.jpeg[i] = prop[id]
# print(len(self.jpeg), "tables loaded")
self._open_subimage(1, self.maxid)
def _open_subimage(self, index = 1, subimage = 0):
#
# setup tile descriptors for a given subimage
stream = [
"Data Object Store {0:06d}".format(index),
"Resolution {0:04d}".format(subimage),
"Subimage 0000 Header"
]
fp = self.ole.openstream(stream)
# skip prefix
p = fp.read(28)
# header stream
s = fp.read(36)
size = i32(s, 4), i32(s, 8)
tilecount = i32(s, 12)
tilesize = i32(s, 16), i32(s, 20)
channels = i32(s, 24)
offset = i32(s, 28)
length = i32(s, 32)
# print(size, self.mode, self.rawmode)
if size != self.size:
raise IOError("subimage mismatch")
# get tile descriptors
fp.seek(28 + offset)
s = fp.read(i32(s, 12) * length)
x = y = 0
xsize, ysize = size
xtile, ytile = tilesize
self.tile = []
for i in range(0, len(s), length):
compression = i32(s, i+8)
if compression == 0:
self.tile.append(("raw", (x,y,x+xtile,y+ytile),
i32(s, i) + 28, (self.rawmode)))
elif compression == 1:
# FIXME: the fill decoder is not implemented
self.tile.append(("fill", (x,y,x+xtile,y+ytile),
i32(s, i) + 28, (self.rawmode, s[12:16])))
elif compression == 2:
internal_color_conversion = s[14]
jpeg_tables = s[15]
rawmode = self.rawmode
if internal_color_conversion:
# The image is stored as usual (usually YCbCr).
if rawmode == "RGBA":
# For "RGBA", data is stored as YCbCrA based on
# negative RGB. The following trick works around
# this problem :
jpegmode, rawmode = "YCbCrK", "CMYK"
else:
jpegmode = None # let the decoder decide
else:
# The image is stored as defined by rawmode
jpegmode = rawmode
self.tile.append(("jpeg", (x,y,x+xtile,y+ytile),
i32(s, i) + 28, (rawmode, jpegmode)))
# FIXME: jpeg tables are tile dependent; the prefix
# data must be placed in the tile descriptor itself!
if jpeg_tables:
self.tile_prefix = self.jpeg[jpeg_tables]
else:
raise IOError("unknown/invalid compression")
x = x + xtile
if x >= xsize:
x, y = 0, y + ytile
if y >= ysize:
break # isn't really required
self.stream = stream
self.fp = None
def load(self):
if not self.fp:
self.fp = self.ole.openstream(self.stream[:2] + ["Subimage 0000 Data"])
ImageFile.ImageFile.load(self)