SickRage/lib/hachoir_parser/image/png.py

"""
PNG picture file parser.

Documents:
- RFC 2083
  http://www.faqs.org/rfcs/rfc2083.html

Author: Victor Stinner
"""

from lib.hachoir_parser import Parser
from lib.hachoir_core.field import (FieldSet, Fragment,
    ParserError, MissingField,
    UInt8, UInt16, UInt32,
    String, CString,
    Bytes, RawBytes,
    Bit, NullBits,
    Enum, CompressedField)
from lib.hachoir_parser.image.common import RGB
from lib.hachoir_core.text_handler import textHandler, hexadecimal
from lib.hachoir_core.endian import NETWORK_ENDIAN
from lib.hachoir_core.tools import humanFilesize
from datetime import datetime

MAX_FILESIZE = 500 * 1024 * 1024

try:
    from zlib import decompressobj

    class Gunzip:
        def __init__(self, stream):
            self.gzip = decompressobj()

        def __call__(self, size, data=None):
            if data is None:
                data = self.gzip.unconsumed_tail
            return self.gzip.decompress(data, size)

    has_deflate = True
except ImportError:
    has_deflate = False

UNIT_NAME = {1: "Meter"}
COMPRESSION_NAME = {
    0: u"deflate" # with 32K sliding window
}
MAX_CHUNK_SIZE = 500 * 1024 # Maximum chunk size (500 KB)

def headerParse(parent):
    yield UInt32(parent, "width", "Width (pixels)")
    yield UInt32(parent, "height", "Height (pixels)")
    yield UInt8(parent, "bit_depth", "Bit depth")
    yield NullBits(parent, "reserved", 5)
    yield Bit(parent, "has_alpha", "Has alpha channel?")
    yield Bit(parent, "color", "Color used?")
    yield Bit(parent, "has_palette", "Has a color palette?")
    yield Enum(UInt8(parent, "compression", "Compression method"), COMPRESSION_NAME)
    yield UInt8(parent, "filter", "Filter method")
    yield UInt8(parent, "interlace", "Interlace method")

def headerDescription(parent):
    return "Header: %ux%u pixels and %u bits/pixel" % \
        (parent["width"].value, parent["height"].value, getBitsPerPixel(parent))

def paletteParse(parent):
    size = parent["size"].value
    if (size % 3) != 0:
        raise ParserError("Palette have invalid size (%s), should be 3*n!" % size)
    nb_colors = size // 3
    for index in xrange(nb_colors):
        yield RGB(parent, "color[]")

def paletteDescription(parent):
    return "Palette: %u colors" % (parent["size"].value // 3)

def gammaParse(parent):
    yield UInt32(parent, "gamma", "Gamma (x100,000)")
def gammaValue(parent):
    return float(parent["gamma"].value) / 100000
def gammaDescription(parent):
    return "Gamma: %.3f" % parent.value

def textParse(parent):
    yield CString(parent, "keyword", "Keyword", charset="ISO-8859-1")
    length = parent["size"].value - parent["keyword"].size/8
    if length:
        yield String(parent, "text", length, "Text", charset="ISO-8859-1")

def textDescription(parent):
    if "text" in parent:
        return u'Text: %s' % parent["text"].display
    else:
        return u'Text'

def timestampParse(parent):
    yield UInt16(parent, "year", "Year")
    yield UInt8(parent, "month", "Month")
    yield UInt8(parent, "day", "Day")
    yield UInt8(parent, "hour", "Hour")
    yield UInt8(parent, "minute", "Minute")
    yield UInt8(parent, "second", "Second")

def timestampValue(parent):
    value = datetime(
        parent["year"].value, parent["month"].value, parent["day"].value,
        parent["hour"].value, parent["minute"].value, parent["second"].value)
    return value

def physicalParse(parent):
    yield UInt32(parent, "pixel_per_unit_x", "Pixel per unit, X axis")
    yield UInt32(parent, "pixel_per_unit_y", "Pixel per unit, Y axis")
    yield Enum(UInt8(parent, "unit", "Unit type"), UNIT_NAME)

def physicalDescription(parent):
    x = parent["pixel_per_unit_x"].value
    y = parent["pixel_per_unit_y"].value
    desc = "Physical: %ux%u pixels" % (x,y)
    if parent["unit"].value == 1:
        desc += " per meter"
    return desc

def parseBackgroundColor(parent):
    yield UInt16(parent, "red")
    yield UInt16(parent, "green")
    yield UInt16(parent, "blue")

def backgroundColorDesc(parent):
    rgb = parent["red"].value, parent["green"].value, parent["blue"].value
    name = RGB.color_name.get(rgb)
    if not name:
        name = "#%02X%02X%02X" % rgb
    return "Background color: %s" % name


class ImageData(Fragment):
    def __init__(self, parent, name="compressed_data"):
        Fragment.__init__(self, parent, name, None, 8*parent["size"].value)
        data = parent.name.split('[')
        data, next = "../%s[%%u]" % data[0], int(data[1][:-1]) + 1
        first = parent.getField(data % 0)
        if first is parent:
            first = None
            if has_deflate:
                CompressedField(self, Gunzip)
        else:
            first = first[name]
        try:
            _next = parent[data % next]
            next = lambda: _next[name]
        except MissingField:
            next = None
        self.setLinks(first, next)

def parseTransparency(parent):
    for i in range(parent["size"].value):
        yield UInt8(parent, "alpha_value[]", "Alpha value for palette entry %i"%i)

def getBitsPerPixel(header):
    nr_component = 1
    if header["has_alpha"].value:
        nr_component += 1
    if header["color"].value and not header["has_palette"].value:
        nr_component += 2
    return nr_component * header["bit_depth"].value

class Chunk(FieldSet):
    TAG_INFO = {
        "tIME": ("time", timestampParse, "Timestamp", timestampValue),
        "pHYs": ("physical", physicalParse, physicalDescription, None),
        "IHDR": ("header", headerParse, headerDescription, None),
        "PLTE": ("palette", paletteParse, paletteDescription, None),
        "gAMA": ("gamma", gammaParse, gammaDescription, gammaValue),
        "tEXt": ("text[]", textParse, textDescription, None),
        "tRNS": ("transparency", parseTransparency, "Transparency Info", None),

        "bKGD": ("background", parseBackgroundColor, backgroundColorDesc, None),
        "IDAT": ("data[]", lambda parent: (ImageData(parent),), "Image data", None),
        "iTXt": ("utf8_text[]", None, "International text (encoded in UTF-8)", None),
        "zTXt": ("comp_text[]", None, "Compressed text", None),
        "IEND": ("end", None, "End", None)
    }

    def createValueFunc(self):
        return self.value_func(self)

    def __init__(self, parent, name, description=None):
        FieldSet.__init__(self, parent, name, description)
        self._size = (self["size"].value + 3*4) * 8
        if MAX_CHUNK_SIZE < (self._size//8):
            raise ParserError("PNG: Chunk is too big (%s)"
                % humanFilesize(self._size//8))
        tag = self["tag"].value
        self.desc_func = None
        self.value_func = None
        if tag in self.TAG_INFO:
            self._name, self.parse_func, desc, value_func = self.TAG_INFO[tag]
            if value_func:
                self.value_func = value_func
                self.createValue = self.createValueFunc
            if desc:
                if isinstance(desc, str):
                    self._description = desc
                else:
                    self.desc_func = desc
        else:
            self._description = ""
            self.parse_func = None

    def createFields(self):
        yield UInt32(self, "size", "Size")
        yield String(self, "tag", 4, "Tag", charset="ASCII")

        size = self["size"].value
        if size != 0:
            if self.parse_func:
                for field in self.parse_func(self):
                    yield field
            else:
                yield RawBytes(self, "content", size, "Data")
        yield textHandler(UInt32(self, "crc32", "CRC32"), hexadecimal)

    def createDescription(self):
        if self.desc_func:
            return self.desc_func(self)
        else:
            return "Chunk: %s" % self["tag"].display

class PngFile(Parser):
    PARSER_TAGS = {
        "id": "png",
        "category": "image",
        "file_ext": ("png",),
        "mime": (u"image/png", u"image/x-png"),
        "min_size": 8*8, # just the identifier
        "magic": [('\x89PNG\r\n\x1A\n', 0)],
        "description": "Portable Network Graphics (PNG) picture"
    }
    endian = NETWORK_ENDIAN

    def validate(self):
        if self["id"].value != '\x89PNG\r\n\x1A\n':
            return "Invalid signature"
        if self[1].name != "header":
            return "First chunk is not header"
        return True

    def createFields(self):
        yield Bytes(self, "id", 8, r"PNG identifier ('\x89PNG\r\n\x1A\n')")
        while not self.eof:
            yield Chunk(self, "chunk[]")

    def createDescription(self):
        header = self["header"]
        desc = "PNG picture: %ux%ux%u" % (
            header["width"].value, header["height"].value, getBitsPerPixel(header))
        if header["has_alpha"].value:
            desc += " (alpha layer)"
        return desc

    def createContentSize(self):
        field = self["header"]
        start = field.absolute_address + field.size
        end = MAX_FILESIZE * 8
        pos = self.stream.searchBytes("\0\0\0\0IEND\xae\x42\x60\x82", start, end)
        if pos is not None:
            return pos + 12*8
        return None
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! 2014-03-10 01:18:05 -04:00			`"""`
			`PNG picture file parser.`

			`Documents:`
			`- RFC 2083`
			`http://www.faqs.org/rfcs/rfc2083.html`

			`Author: Victor Stinner`
			`"""`

			`from lib.hachoir_parser import Parser`
			`from lib.hachoir_core.field import (FieldSet, Fragment,`
			`ParserError, MissingField,`
			`UInt8, UInt16, UInt32,`
			`String, CString,`
			`Bytes, RawBytes,`
			`Bit, NullBits,`
			`Enum, CompressedField)`
			`from lib.hachoir_parser.image.common import RGB`
			`from lib.hachoir_core.text_handler import textHandler, hexadecimal`
			`from lib.hachoir_core.endian import NETWORK_ENDIAN`
			`from lib.hachoir_core.tools import humanFilesize`
			`from datetime import datetime`

			`MAX_FILESIZE = 500 * 1024 * 1024`

			`try:`
			`from zlib import decompressobj`

			`class Gunzip:`
			`def __init__(self, stream):`
			`self.gzip = decompressobj()`

			`def __call__(self, size, data=None):`
			`if data is None:`
			`data = self.gzip.unconsumed_tail`
			`return self.gzip.decompress(data, size)`

			`has_deflate = True`
			`except ImportError:`
			`has_deflate = False`

			`UNIT_NAME = {1: "Meter"}`
			`COMPRESSION_NAME = {`
			`0: u"deflate" # with 32K sliding window`
			`}`
			`MAX_CHUNK_SIZE = 500 * 1024 # Maximum chunk size (500 KB)`

			`def headerParse(parent):`
			`yield UInt32(parent, "width", "Width (pixels)")`
			`yield UInt32(parent, "height", "Height (pixels)")`
			`yield UInt8(parent, "bit_depth", "Bit depth")`
			`yield NullBits(parent, "reserved", 5)`
			`yield Bit(parent, "has_alpha", "Has alpha channel?")`
			`yield Bit(parent, "color", "Color used?")`
			`yield Bit(parent, "has_palette", "Has a color palette?")`
			`yield Enum(UInt8(parent, "compression", "Compression method"), COMPRESSION_NAME)`
			`yield UInt8(parent, "filter", "Filter method")`
			`yield UInt8(parent, "interlace", "Interlace method")`

			`def headerDescription(parent):`
			`return "Header: %ux%u pixels and %u bits/pixel" % \`
			`(parent["width"].value, parent["height"].value, getBitsPerPixel(parent))`

			`def paletteParse(parent):`
			`size = parent["size"].value`
			`if (size % 3) != 0:`
			`raise ParserError("Palette have invalid size (%s), should be 3*n!" % size)`
			`nb_colors = size // 3`
			`for index in xrange(nb_colors):`
			`yield RGB(parent, "color[]")`

			`def paletteDescription(parent):`
			`return "Palette: %u colors" % (parent["size"].value // 3)`

			`def gammaParse(parent):`
			`yield UInt32(parent, "gamma", "Gamma (x100,000)")`
			`def gammaValue(parent):`
			`return float(parent["gamma"].value) / 100000`
			`def gammaDescription(parent):`
			`return "Gamma: %.3f" % parent.value`

			`def textParse(parent):`
			`yield CString(parent, "keyword", "Keyword", charset="ISO-8859-1")`
			`length = parent["size"].value - parent["keyword"].size/8`
			`if length:`
			`yield String(parent, "text", length, "Text", charset="ISO-8859-1")`

			`def textDescription(parent):`
			`if "text" in parent:`
			`return u'Text: %s' % parent["text"].display`
			`else:`
			`return u'Text'`

			`def timestampParse(parent):`
			`yield UInt16(parent, "year", "Year")`
			`yield UInt8(parent, "month", "Month")`
			`yield UInt8(parent, "day", "Day")`
			`yield UInt8(parent, "hour", "Hour")`
			`yield UInt8(parent, "minute", "Minute")`
			`yield UInt8(parent, "second", "Second")`

			`def timestampValue(parent):`
			`value = datetime(`
			`parent["year"].value, parent["month"].value, parent["day"].value,`
			`parent["hour"].value, parent["minute"].value, parent["second"].value)`
			`return value`

			`def physicalParse(parent):`
			`yield UInt32(parent, "pixel_per_unit_x", "Pixel per unit, X axis")`
			`yield UInt32(parent, "pixel_per_unit_y", "Pixel per unit, Y axis")`
			`yield Enum(UInt8(parent, "unit", "Unit type"), UNIT_NAME)`

			`def physicalDescription(parent):`
			`x = parent["pixel_per_unit_x"].value`
			`y = parent["pixel_per_unit_y"].value`
			`desc = "Physical: %ux%u pixels" % (x,y)`
			`if parent["unit"].value == 1:`
			`desc += " per meter"`
			`return desc`

			`def parseBackgroundColor(parent):`
			`yield UInt16(parent, "red")`
			`yield UInt16(parent, "green")`
			`yield UInt16(parent, "blue")`

			`def backgroundColorDesc(parent):`
			`rgb = parent["red"].value, parent["green"].value, parent["blue"].value`
			`name = RGB.color_name.get(rgb)`
			`if not name:`
			`name = "#%02X%02X%02X" % rgb`
			`return "Background color: %s" % name`


			`class ImageData(Fragment):`
			`def __init__(self, parent, name="compressed_data"):`
			`Fragment.__init__(self, parent, name, None, 8*parent["size"].value)`
			`data = parent.name.split('[')`
			`data, next = "../%s[%%u]" % data[0], int(data[1][:-1]) + 1`
			`first = parent.getField(data % 0)`
			`if first is parent:`
			`first = None`
			`if has_deflate:`
			`CompressedField(self, Gunzip)`
			`else:`
			`first = first[name]`
			`try:`
			`_next = parent[data % next]`
			`next = lambda: _next[name]`
			`except MissingField:`
			`next = None`
			`self.setLinks(first, next)`

			`def parseTransparency(parent):`
			`for i in range(parent["size"].value):`
			`yield UInt8(parent, "alpha_value[]", "Alpha value for palette entry %i"%i)`

			`def getBitsPerPixel(header):`
			`nr_component = 1`
			`if header["has_alpha"].value:`
			`nr_component += 1`
			`if header["color"].value and not header["has_palette"].value:`
			`nr_component += 2`
			`return nr_component * header["bit_depth"].value`

			`class Chunk(FieldSet):`
			`TAG_INFO = {`
			`"tIME": ("time", timestampParse, "Timestamp", timestampValue),`
			`"pHYs": ("physical", physicalParse, physicalDescription, None),`
			`"IHDR": ("header", headerParse, headerDescription, None),`
			`"PLTE": ("palette", paletteParse, paletteDescription, None),`
			`"gAMA": ("gamma", gammaParse, gammaDescription, gammaValue),`
			`"tEXt": ("text[]", textParse, textDescription, None),`
			`"tRNS": ("transparency", parseTransparency, "Transparency Info", None),`

			`"bKGD": ("background", parseBackgroundColor, backgroundColorDesc, None),`
			`"IDAT": ("data[]", lambda parent: (ImageData(parent),), "Image data", None),`
			`"iTXt": ("utf8_text[]", None, "International text (encoded in UTF-8)", None),`
			`"zTXt": ("comp_text[]", None, "Compressed text", None),`
			`"IEND": ("end", None, "End", None)`
			`}`

			`def createValueFunc(self):`
			`return self.value_func(self)`

			`def __init__(self, parent, name, description=None):`
			`FieldSet.__init__(self, parent, name, description)`
			`self._size = (self["size"].value + 34) 8`
			`if MAX_CHUNK_SIZE < (self._size//8):`
			`raise ParserError("PNG: Chunk is too big (%s)"`
			`% humanFilesize(self._size//8))`
			`tag = self["tag"].value`
			`self.desc_func = None`
			`self.value_func = None`
			`if tag in self.TAG_INFO:`
			`self._name, self.parse_func, desc, value_func = self.TAG_INFO[tag]`
			`if value_func:`
			`self.value_func = value_func`
			`self.createValue = self.createValueFunc`
			`if desc:`
			`if isinstance(desc, str):`
			`self._description = desc`
			`else:`
			`self.desc_func = desc`
			`else:`
			`self._description = ""`
			`self.parse_func = None`

			`def createFields(self):`
			`yield UInt32(self, "size", "Size")`
			`yield String(self, "tag", 4, "Tag", charset="ASCII")`

			`size = self["size"].value`
			`if size != 0:`
			`if self.parse_func:`
			`for field in self.parse_func(self):`
			`yield field`
			`else:`
			`yield RawBytes(self, "content", size, "Data")`
			`yield textHandler(UInt32(self, "crc32", "CRC32"), hexadecimal)`

			`def createDescription(self):`
			`if self.desc_func:`
			`return self.desc_func(self)`
			`else:`
			`return "Chunk: %s" % self["tag"].display`

			`class PngFile(Parser):`
			`PARSER_TAGS = {`
			`"id": "png",`
			`"category": "image",`
			`"file_ext": ("png",),`
			`"mime": (u"image/png", u"image/x-png"),`
			`"min_size": 8*8, # just the identifier`
			`"magic": [('\x89PNG\r\n\x1A\n', 0)],`
			`"description": "Portable Network Graphics (PNG) picture"`
			`}`
			`endian = NETWORK_ENDIAN`

			`def validate(self):`
			`if self["id"].value != '\x89PNG\r\n\x1A\n':`
			`return "Invalid signature"`
			`if self[1].name != "header":`
			`return "First chunk is not header"`
			`return True`

			`def createFields(self):`
			`yield Bytes(self, "id", 8, r"PNG identifier ('\x89PNG\r\n\x1A\n')")`
			`while not self.eof:`
			`yield Chunk(self, "chunk[]")`

			`def createDescription(self):`
			`header = self["header"]`
			`desc = "PNG picture: %ux%ux%u" % (`
			`header["width"].value, header["height"].value, getBitsPerPixel(header))`
			`if header["has_alpha"].value:`
			`desc += " (alpha layer)"`
			`return desc`

			`def createContentSize(self):`
			`field = self["header"]`
			`start = field.absolute_address + field.size`
			`end = MAX_FILESIZE * 8`
			`pos = self.stream.searchBytes("\0\0\0\0IEND\xae\x42\x60\x82", start, end)`
			`if pos is not None:`
			`return pos + 12*8`
			`return None`