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SickRage/lib/hachoir_parser/image/xcf.py
echel0n 0d9fbc1ad7 Welcome to our SickBeard-TVRage Edition ... 
This version of SickBeard uses both TVDB and TVRage to search and gather it's series data from allowing you to now have access to and download shows that you couldn't before because of being locked into only what TheTVDB had to offer.

Also this edition is based off the code we used in our XEM editon so it does come with scene numbering support as well as all the other features our XEM edition has to offer.

Please before using this with your existing database (sickbeard.db) please make a backup copy of it and delete any other database files such as cache.db and failed.db if present, we HIGHLY recommend starting out with no database files at all to make this a fresh start but the choice is at your own risk!

Enjoy!
2014-03-09 22:39:12 -07:00

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"""
Gimp image parser (XCF file, ".xcf" extension).
You can find informations about XCF file in Gimp source code. URL to read
CVS online:
http://cvs.gnome.org/viewcvs/gimp/app/xcf/
\--> files xcf-read.c and xcf-load.c
Author: Victor Stinner
"""
from lib.hachoir_parser import Parser
from lib.hachoir_core.field import (StaticFieldSet, FieldSet, ParserError,
UInt8, UInt32, Enum, Float32, String, PascalString32, RawBytes)
from lib.hachoir_parser.image.common import RGBA
from lib.hachoir_core.endian import NETWORK_ENDIAN
class XcfCompression(FieldSet):
static_size = 8
COMPRESSION_NAME = {
0: u"None",
1: u"RLE",
2: u"Zlib",
3: u"Fractal"
}
def createFields(self):
yield Enum(UInt8(self, "compression", "Compression method"), self.COMPRESSION_NAME)
class XcfResolution(StaticFieldSet):
format = (
(Float32, "xres", "X resolution in DPI"),
(Float32, "yres", "Y resolution in DPI")
)
class XcfTattoo(StaticFieldSet):
format = ((UInt32, "tattoo", "Tattoo"),)
class LayerOffsets(StaticFieldSet):
format = (
(UInt32, "ofst_x", "Offset X"),
(UInt32, "ofst_y", "Offset Y")
)
class LayerMode(FieldSet):
static_size = 32
MODE_NAME = {
0: u"Normal",
1: u"Dissolve",
2: u"Behind",
3: u"Multiply",
4: u"Screen",
5: u"Overlay",
6: u"Difference",
7: u"Addition",
8: u"Subtract",
9: u"Darken only",
10: u"Lighten only",
11: u"Hue",
12: u"Saturation",
13: u"Color",
14: u"Value",
15: u"Divide",
16: u"Dodge",
17: u"Burn",
18: u"Hard light",
19: u"Soft light",
20: u"Grain extract",
21: u"Grain merge",
22: u"Color erase"
}
def createFields(self):
yield Enum(UInt32(self, "mode", "Layer mode"), self.MODE_NAME)
class GimpBoolean(UInt32):
def __init__(self, parent, name):
UInt32.__init__(self, parent, name)
def createValue(self):
return 1 == UInt32.createValue(self)
class XcfUnit(StaticFieldSet):
format = ((UInt32, "unit", "Unit"),)
class XcfParasiteEntry(FieldSet):
def createFields(self):
yield PascalString32(self, "name", "Name", strip="\0", charset="UTF-8")
yield UInt32(self, "flags", "Flags")
yield PascalString32(self, "data", "Data", strip=" \0", charset="UTF-8")
class XcfLevel(FieldSet):
def createFields(self):
yield UInt32(self, "width", "Width in pixel")
yield UInt32(self, "height", "Height in pixel")
yield UInt32(self, "offset", "Offset")
offset = self["offset"].value
if offset == 0:
return
data_offsets = []
while (self.absolute_address + self.current_size)/8 < offset:
chunk = UInt32(self, "data_offset[]", "Data offset")
yield chunk
if chunk.value == 0:
break
data_offsets.append(chunk)
if (self.absolute_address + self.current_size)/8 != offset:
raise ParserError("Problem with level offset.")
previous = offset
for chunk in data_offsets:
data_offset = chunk.value
size = data_offset - previous
yield RawBytes(self, "data[]", size, "Data content of %s" % chunk.name)
previous = data_offset
class XcfHierarchy(FieldSet):
def createFields(self):
yield UInt32(self, "width", "Width")
yield UInt32(self, "height", "Height")
yield UInt32(self, "bpp", "Bits/pixel")
offsets = []
while True:
chunk = UInt32(self, "offset[]", "Level offset")
yield chunk
if chunk.value == 0:
break
offsets.append(chunk.value)
for offset in offsets:
padding = self.seekByte(offset, relative=False)
if padding is not None:
yield padding
yield XcfLevel(self, "level[]", "Level")
# yield XcfChannel(self, "channel[]", "Channel"))
class XcfChannel(FieldSet):
def createFields(self):
yield UInt32(self, "width", "Channel width")
yield UInt32(self, "height", "Channel height")
yield PascalString32(self, "name", "Channel name", strip="\0", charset="UTF-8")
for field in readProperties(self):
yield field
yield UInt32(self, "hierarchy_ofs", "Hierarchy offset")
yield XcfHierarchy(self, "hierarchy", "Hierarchy")
def createDescription(self):
return 'Channel "%s"' % self["name"].value
class XcfLayer(FieldSet):
def createFields(self):
yield UInt32(self, "width", "Layer width in pixels")
yield UInt32(self, "height", "Layer height in pixels")
yield Enum(UInt32(self, "type", "Layer type"), XcfFile.IMAGE_TYPE_NAME)
yield PascalString32(self, "name", "Layer name", strip="\0", charset="UTF-8")
for prop in readProperties(self):
yield prop
# --
# TODO: Hack for Gimp 1.2 files
# --
yield UInt32(self, "hierarchy_ofs", "Hierarchy offset")
yield UInt32(self, "mask_ofs", "Layer mask offset")
padding = self.seekByte(self["hierarchy_ofs"].value, relative=False)
if padding is not None:
yield padding
yield XcfHierarchy(self, "hierarchy", "Hierarchy")
# TODO: Read layer mask if needed: self["mask_ofs"].value != 0
def createDescription(self):
return 'Layer "%s"' % self["name"].value
class XcfParasites(FieldSet):
def createFields(self):
size = self["../size"].value * 8
while self.current_size < size:
yield XcfParasiteEntry(self, "parasite[]", "Parasite")
class XcfProperty(FieldSet):
PROP_COMPRESSION = 17
PROP_RESOLUTION = 19
PROP_PARASITES = 21
TYPE_NAME = {
0: u"End",
1: u"Colormap",
2: u"Active layer",
3: u"Active channel",
4: u"Selection",
5: u"Floating selection",
6: u"Opacity",
7: u"Mode",
8: u"Visible",
9: u"Linked",
10: u"Lock alpha",
11: u"Apply mask",
12: u"Edit mask",
13: u"Show mask",
14: u"Show masked",
15: u"Offsets",
16: u"Color",
17: u"Compression",
18: u"Guides",
19: u"Resolution",
20: u"Tattoo",
21: u"Parasites",
22: u"Unit",
23: u"Paths",
24: u"User unit",
25: u"Vectors",
26: u"Text layer flags",
}
handler = {
6: RGBA,
7: LayerMode,
8: GimpBoolean,
9: GimpBoolean,
10: GimpBoolean,
11: GimpBoolean,
12: GimpBoolean,
13: GimpBoolean,
15: LayerOffsets,
17: XcfCompression,
19: XcfResolution,
20: XcfTattoo,
21: XcfParasites,
22: XcfUnit
}
def __init__(self, *args, **kw):
FieldSet.__init__(self, *args, **kw)
self._size = (8 + self["size"].value) * 8
def createFields(self):
yield Enum(UInt32(self, "type", "Property type"), self.TYPE_NAME)
yield UInt32(self, "size", "Property size")
size = self["size"].value
if 0 < size:
cls = self.handler.get(self["type"].value, None)
if cls:
yield cls(self, "data", size=size*8)
else:
yield RawBytes(self, "data", size, "Data")
def createDescription(self):
return "Property: %s" % self["type"].display
def readProperties(parser):
while True:
prop = XcfProperty(parser, "property[]")
yield prop
if prop["type"].value == 0:
return
class XcfFile(Parser):
PARSER_TAGS = {
"id": "xcf",
"category": "image",
"file_ext": ("xcf",),
"mime": (u"image/x-xcf", u"application/x-gimp-image"),
"min_size": (26 + 8 + 4 + 4)*8, # header+empty property+layer offset+channel offset
"magic": (
('gimp xcf file\0', 0),
('gimp xcf v002\0', 0),
),
"description": "Gimp (XCF) picture"
}
endian = NETWORK_ENDIAN
IMAGE_TYPE_NAME = {
0: u"RGB",
1: u"Gray",
2: u"Indexed"
}
def validate(self):
if self.stream.readBytes(0, 14) not in ('gimp xcf file\0', 'gimp xcf v002\0'):
return "Wrong signature"
return True
def createFields(self):
# Read signature
yield String(self, "signature", 14, "Gimp picture signature (ends with nul byte)", charset="ASCII")
# Read image general informations (width, height, type)
yield UInt32(self, "width", "Image width")
yield UInt32(self, "height", "Image height")
yield Enum(UInt32(self, "type", "Image type"), self.IMAGE_TYPE_NAME)
for prop in readProperties(self):
yield prop
# Read layer offsets
layer_offsets = []
while True:
chunk = UInt32(self, "layer_offset[]", "Layer offset")
yield chunk
if chunk.value == 0:
break
layer_offsets.append(chunk.value)
# Read channel offsets
channel_offsets = []
while True:
chunk = UInt32(self, "channel_offset[]", "Channel offset")
yield chunk
if chunk.value == 0:
break
channel_offsets.append(chunk.value)
# Read layers
for index, offset in enumerate(layer_offsets):
if index+1 < len(layer_offsets):
size = (layer_offsets[index+1] - offset) * 8
else:
size = None
padding = self.seekByte(offset, relative=False)
if padding:
yield padding
yield XcfLayer(self, "layer[]", size=size)
# Read channels
for index, offset in enumerate(channel_offsets):
if index+1 < len(channel_offsets):
size = (channel_offsets[index+1] - offset) * 8
else:
size = None
padding = self.seekByte(offset, relative=False)
if padding is not None:
yield padding
yield XcfChannel(self, "channel[]", "Channel", size=size)
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