1
0
mirror of https://github.com/moparisthebest/SickRage synced 2024-11-05 17:05:03 -05:00
SickRage/lib/hachoir_metadata/image.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

300 lines
11 KiB
Python

from lib.hachoir_metadata.metadata import (registerExtractor,
Metadata, RootMetadata, MultipleMetadata)
from lib.hachoir_parser.image import (
BmpFile, IcoFile, PcxFile, GifFile, PngFile, TiffFile,
XcfFile, TargaFile, WMF_File, PsdFile)
from lib.hachoir_parser.image.png import getBitsPerPixel as pngBitsPerPixel
from lib.hachoir_parser.image.xcf import XcfProperty
from lib.hachoir_core.i18n import _
from lib.hachoir_metadata.safe import fault_tolerant
def computeComprRate(meta, compr_size):
"""
Compute image compression rate. Skip size of color palette, focus on
image pixels. Original size is width x height x bpp. Compressed size
is an argument (in bits).
Set "compr_data" with a string like "1.52x".
"""
if not meta.has("width") \
or not meta.has("height") \
or not meta.has("bits_per_pixel"):
return
if not compr_size:
return
orig_size = meta.get('width') * meta.get('height') * meta.get('bits_per_pixel')
meta.compr_rate = float(orig_size) / compr_size
class BmpMetadata(RootMetadata):
def extract(self, image):
if "header" not in image:
return
hdr = image["header"]
self.width = hdr["width"].value
self.height = hdr["height"].value
bpp = hdr["bpp"].value
if bpp:
if bpp <= 8 and "used_colors" in hdr:
self.nb_colors = hdr["used_colors"].value
self.bits_per_pixel = bpp
self.compression = hdr["compression"].display
self.format_version = u"Microsoft Bitmap version %s" % hdr.getFormatVersion()
self.width_dpi = hdr["horizontal_dpi"].value
self.height_dpi = hdr["vertical_dpi"].value
if "pixels" in image:
computeComprRate(self, image["pixels"].size)
class TiffMetadata(RootMetadata):
key_to_attr = {
"img_width": "width",
"img_height": "width",
# TODO: Enable that (need link to value)
# "description": "comment",
# "doc_name": "title",
# "orientation": "image_orientation",
}
def extract(self, tiff):
if "ifd" in tiff:
self.useIFD(tiff["ifd"])
def useIFD(self, ifd):
for field in ifd:
try:
attrname = self.key_to_attr[field.name]
except KeyError:
continue
if "value" not in field:
continue
value = field["value"].value
setattr(self, attrname, value)
class IcoMetadata(MultipleMetadata):
color_to_bpp = {
2: 1,
16: 4,
256: 8
}
def extract(self, icon):
for index, header in enumerate(icon.array("icon_header")):
image = Metadata(self)
# Read size and colors from header
image.width = header["width"].value
image.height = header["height"].value
bpp = header["bpp"].value
nb_colors = header["nb_color"].value
if nb_colors != 0:
image.nb_colors = nb_colors
if bpp == 0 and nb_colors in self.color_to_bpp:
bpp = self.color_to_bpp[nb_colors]
elif bpp == 0:
bpp = 8
image.bits_per_pixel = bpp
image.setHeader(_("Icon #%u (%sx%s)")
% (1+index, image.get("width", "?"), image.get("height", "?")))
# Read compression from data (if available)
key = "icon_data[%u]/header/codec" % index
if key in icon:
image.compression = icon[key].display
key = "icon_data[%u]/pixels" % index
if key in icon:
computeComprRate(image, icon[key].size)
# Store new image
self.addGroup("image[%u]" % index, image)
class PcxMetadata(RootMetadata):
@fault_tolerant
def extract(self, pcx):
self.width = 1 + pcx["xmax"].value
self.height = 1 + pcx["ymax"].value
self.width_dpi = pcx["horiz_dpi"].value
self.height_dpi = pcx["vert_dpi"].value
self.bits_per_pixel = pcx["bpp"].value
if 1 <= pcx["bpp"].value <= 8:
self.nb_colors = 2 ** pcx["bpp"].value
self.compression = _("Run-length encoding (RLE)")
self.format_version = "PCX: %s" % pcx["version"].display
if "image_data" in pcx:
computeComprRate(self, pcx["image_data"].size)
class XcfMetadata(RootMetadata):
# Map image type to bits/pixel
TYPE_TO_BPP = {0: 24, 1: 8, 2: 8}
def extract(self, xcf):
self.width = xcf["width"].value
self.height = xcf["height"].value
try:
self.bits_per_pixel = self.TYPE_TO_BPP[ xcf["type"].value ]
except KeyError:
pass
self.format_version = xcf["type"].display
self.readProperties(xcf)
@fault_tolerant
def processProperty(self, prop):
type = prop["type"].value
if type == XcfProperty.PROP_PARASITES:
for field in prop["data"]:
if "name" not in field or "data" not in field:
continue
if field["name"].value == "gimp-comment":
self.comment = field["data"].value
elif type == XcfProperty.PROP_COMPRESSION:
self.compression = prop["data/compression"].display
elif type == XcfProperty.PROP_RESOLUTION:
self.width_dpi = int(prop["data/xres"].value)
self.height_dpi = int(prop["data/yres"].value)
def readProperties(self, xcf):
for prop in xcf.array("property"):
self.processProperty(prop)
class PngMetadata(RootMetadata):
TEXT_TO_ATTR = {
"software": "producer",
}
def extract(self, png):
if "header" in png:
self.useHeader(png["header"])
if "time" in png:
self.useTime(png["time"])
if "physical" in png:
self.usePhysical(png["physical"])
for comment in png.array("text"):
if "text" not in comment:
continue
keyword = comment["keyword"].value
text = comment["text"].value
try:
key = self.TEXT_TO_ATTR[keyword.lower()]
setattr(self, key, text)
except KeyError:
if keyword.lower() != "comment":
self.comment = "%s=%s" % (keyword, text)
else:
self.comment = text
compr_size = sum( data.size for data in png.array("data") )
computeComprRate(self, compr_size)
@fault_tolerant
def useTime(self, field):
self.creation_date = field.value
@fault_tolerant
def usePhysical(self, field):
self.width_dpi = field["pixel_per_unit_x"].value
self.height_dpi = field["pixel_per_unit_y"].value
@fault_tolerant
def useHeader(self, header):
self.width = header["width"].value
self.height = header["height"].value
# Read number of colors and pixel format
if "/palette/size" in header:
nb_colors = header["/palette/size"].value // 3
else:
nb_colors = None
if not header["has_palette"].value:
if header["has_alpha"].value:
self.pixel_format = _("RGBA")
else:
self.pixel_format = _("RGB")
elif "/transparency" in header:
self.pixel_format = _("Color index with transparency")
if nb_colors:
nb_colors -= 1
else:
self.pixel_format = _("Color index")
self.bits_per_pixel = pngBitsPerPixel(header)
if nb_colors:
self.nb_colors = nb_colors
# Read compression, timestamp, etc.
self.compression = header["compression"].display
class GifMetadata(RootMetadata):
def extract(self, gif):
self.useScreen(gif["/screen"])
if self.has("bits_per_pixel"):
self.nb_colors = (1 << self.get('bits_per_pixel'))
self.compression = _("LZW")
self.format_version = "GIF version %s" % gif["version"].value
for comments in gif.array("comments"):
for comment in gif.array(comments.name + "/comment"):
self.comment = comment.value
if "graphic_ctl/has_transp" in gif and gif["graphic_ctl/has_transp"].value:
self.pixel_format = _("Color index with transparency")
else:
self.pixel_format = _("Color index")
@fault_tolerant
def useScreen(self, screen):
self.width = screen["width"].value
self.height = screen["height"].value
self.bits_per_pixel = (1 + screen["bpp"].value)
class TargaMetadata(RootMetadata):
def extract(self, tga):
self.width = tga["width"].value
self.height = tga["height"].value
self.bits_per_pixel = tga["bpp"].value
if tga["nb_color"].value:
self.nb_colors = tga["nb_color"].value
self.compression = tga["codec"].display
if "pixels" in tga:
computeComprRate(self, tga["pixels"].size)
class WmfMetadata(RootMetadata):
def extract(self, wmf):
if wmf.isAPM():
if "amf_header/rect" in wmf:
rect = wmf["amf_header/rect"]
self.width = (rect["right"].value - rect["left"].value)
self.height = (rect["bottom"].value - rect["top"].value)
self.bits_per_pixel = 24
elif wmf.isEMF():
emf = wmf["emf_header"]
if "description" in emf:
desc = emf["description"].value
if "\0" in desc:
self.producer, self.title = desc.split("\0", 1)
else:
self.producer = desc
if emf["nb_colors"].value:
self.nb_colors = emf["nb_colors"].value
self.bits_per_pixel = 8
else:
self.bits_per_pixel = 24
self.width = emf["width_px"].value
self.height = emf["height_px"].value
class PsdMetadata(RootMetadata):
@fault_tolerant
def extract(self, psd):
self.width = psd["width"].value
self.height = psd["height"].value
self.bits_per_pixel = psd["depth"].value * psd["nb_channels"].value
self.pixel_format = psd["color_mode"].display
self.compression = psd["compression"].display
registerExtractor(IcoFile, IcoMetadata)
registerExtractor(GifFile, GifMetadata)
registerExtractor(XcfFile, XcfMetadata)
registerExtractor(TargaFile, TargaMetadata)
registerExtractor(PcxFile, PcxMetadata)
registerExtractor(BmpFile, BmpMetadata)
registerExtractor(PngFile, PngMetadata)
registerExtractor(TiffFile, TiffMetadata)
registerExtractor(WMF_File, WmfMetadata)
registerExtractor(PsdFile, PsdMetadata)