SickGear/lib/hachoir_parser/image/xcf.py

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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)