SickRage/lib/hachoir_metadata/jpeg.py

from lib.hachoir_metadata.metadata import RootMetadata, registerExtractor
from lib.hachoir_metadata.image import computeComprRate
from lib.hachoir_parser.image.exif import ExifEntry
from lib.hachoir_parser.image.jpeg import (
    JpegFile, JpegChunk,
    QUALITY_HASH_COLOR, QUALITY_SUM_COLOR,
    QUALITY_HASH_GRAY, QUALITY_SUM_GRAY)
from lib.hachoir_core.field import MissingField
from lib.hachoir_core.i18n import _
from lib.hachoir_core.tools import makeUnicode
from lib.hachoir_metadata.safe import fault_tolerant
from datetime import datetime

def deg2float(degree, minute, second):
    return degree + (float(minute) + float(second) / 60.0) / 60.0

class JpegMetadata(RootMetadata):
    EXIF_KEY = {
        # Exif metadatas
        ExifEntry.TAG_CAMERA_MANUFACTURER: "camera_manufacturer",
        ExifEntry.TAG_CAMERA_MODEL: "camera_model",
        ExifEntry.TAG_ORIENTATION: "image_orientation",
        ExifEntry.TAG_EXPOSURE: "camera_exposure",
        ExifEntry.TAG_FOCAL: "camera_focal",
        ExifEntry.TAG_BRIGHTNESS: "camera_brightness",
        ExifEntry.TAG_APERTURE: "camera_aperture",

        # Generic metadatas
        ExifEntry.TAG_IMG_TITLE: "title",
        ExifEntry.TAG_SOFTWARE: "producer",
        ExifEntry.TAG_FILE_TIMESTAMP: "creation_date",
        ExifEntry.TAG_WIDTH: "width",
        ExifEntry.TAG_HEIGHT: "height",
        ExifEntry.TAG_USER_COMMENT: "comment",
    }

    IPTC_KEY = {
         80: "author",
         90: "city",
        101: "country",
        116: "copyright",
        120: "title",
        231: "comment",
    }

    orientation_name = {
        1: _('Horizontal (normal)'),
        2: _('Mirrored horizontal'),
        3: _('Rotated 180'),
        4: _('Mirrored vertical'),
        5: _('Mirrored horizontal then rotated 90 counter-clock-wise'),
        6: _('Rotated 90 clock-wise'),
        7: _('Mirrored horizontal then rotated 90 clock-wise'),
        8: _('Rotated 90 counter clock-wise'),
    }

    def extract(self, jpeg):
        if "start_frame/content" in jpeg:
            self.startOfFrame(jpeg["start_frame/content"])
        elif "start_scan/content/nr_components" in jpeg:
            self.bits_per_pixel = 8 * jpeg["start_scan/content/nr_components"].value
        if "app0/content" in jpeg:
            self.extractAPP0(jpeg["app0/content"])

        if "exif/content" in jpeg:
            for ifd in jpeg.array("exif/content/ifd"):
                for entry in ifd.array("entry"):
                    self.processIfdEntry(ifd, entry)
                self.readGPS(ifd)
        if "photoshop/content" in jpeg:
            psd = jpeg["photoshop/content"]
            if "version/content/reader_name" in psd:
                self.producer = psd["version/content/reader_name"].value
            if "iptc/content" in psd:
                self.parseIPTC(psd["iptc/content"])
        for field in jpeg.array("comment"):
            if "content/comment" in field:
                self.comment = field["content/comment"].value
        self.computeQuality(jpeg)
        if "data" in jpeg:
            computeComprRate(self, jpeg["data"].size)
        if not self.has("producer") and "photoshop" in jpeg:
            self.producer = u"Adobe Photoshop"
        if self.has("compression"):
            self.compression = "JPEG"

    @fault_tolerant
    def startOfFrame(self, sof):
        # Set compression method
        key = sof["../type"].value
        self.compression = "JPEG (%s)" % JpegChunk.START_OF_FRAME[key]

        # Read image size and bits/pixel
        self.width = sof["width"].value
        self.height = sof["height"].value
        nb_components = sof["nr_components"].value
        self.bits_per_pixel = 8 * nb_components
        if nb_components == 3:
            self.pixel_format = _("YCbCr")
        elif nb_components == 1:
            self.pixel_format = _("Grayscale")
            self.nb_colors = 256

    @fault_tolerant
    def computeQuality(self, jpeg):
        # This function is an adaption to Python of ImageMagick code
        # to compute JPEG quality using quantization tables

        # Read quantization tables
        qtlist = []
        for dqt in jpeg.array("quantization"):
            for qt in dqt.array("content/qt"):
                # TODO: Take care of qt["index"].value?
                qtlist.append(qt)
        if not qtlist:
            return

        # Compute sum of all coefficients
        sumcoeff = 0
        for qt in qtlist:
           coeff = qt.array("coeff")
           for index in xrange(64):
                sumcoeff += coeff[index].value

        # Choose the right quality table and compute hash value
        try:
            hashval= qtlist[0]["coeff[2]"].value +  qtlist[0]["coeff[53]"].value
            if 2 <= len(qtlist):
                hashval += qtlist[1]["coeff[0]"].value + qtlist[1]["coeff[63]"].value
                hashtable = QUALITY_HASH_COLOR
                sumtable = QUALITY_SUM_COLOR
            else:
                hashtable = QUALITY_HASH_GRAY
                sumtable = QUALITY_SUM_GRAY
        except (MissingField, IndexError):
            # A coefficient is missing, so don't compute JPEG quality
            return

        # Find the JPEG quality
        for index in xrange(100):
            if (hashval >= hashtable[index]) or (sumcoeff >= sumtable[index]):
                quality = "%s%%" % (index + 1)
                if (hashval > hashtable[index]) or (sumcoeff > sumtable[index]):
                    quality += " " + _("(approximate)")
                self.comment = "JPEG quality: %s" % quality
                return

    @fault_tolerant
    def extractAPP0(self, app0):
        self.format_version = u"JFIF %u.%02u" \
            % (app0["ver_maj"].value, app0["ver_min"].value)
        if "y_density" in app0:
            self.width_dpi = app0["x_density"].value
            self.height_dpi = app0["y_density"].value

    @fault_tolerant
    def processIfdEntry(self, ifd, entry):
        # Skip unknown tags
        tag = entry["tag"].value
        if tag not in self.EXIF_KEY:
            return
        key = self.EXIF_KEY[tag]
        if key in ("width", "height") and self.has(key):
            # EXIF "valid size" are sometimes not updated when the image is scaled
            # so we just ignore it
            return

        # Read value
        if "value" in entry:
            value = entry["value"].value
        else:
            value = ifd["value_%s" % entry.name].value

        # Convert value to string
        if tag == ExifEntry.TAG_ORIENTATION:
            value = self.orientation_name.get(value, value)
        elif tag == ExifEntry.TAG_EXPOSURE:
            if not value:
                return
            if isinstance(value, float):
                value = (value, u"1/%g" % (1/value))
        elif entry["type"].value in (ExifEntry.TYPE_RATIONAL, ExifEntry.TYPE_SIGNED_RATIONAL):
            value = (value, u"%.3g" % value)

        # Store information
        setattr(self, key, value)

    @fault_tolerant
    def readGPS(self, ifd):
        # Read latitude and longitude
        latitude_ref = None
        longitude_ref = None
        latitude = None
        longitude = None
        altitude_ref = 1
        altitude = None
        timestamp = None
        datestamp = None
        for entry in ifd.array("entry"):
            tag = entry["tag"].value
            if tag == ExifEntry.TAG_GPS_LATITUDE_REF:
                if entry["value"].value == "N":
                    latitude_ref = 1
                else:
                    latitude_ref = -1
            elif tag == ExifEntry.TAG_GPS_LONGITUDE_REF:
                if entry["value"].value == "E":
                    longitude_ref = 1
                else:
                    longitude_ref = -1
            elif tag == ExifEntry.TAG_GPS_ALTITUDE_REF:
                if entry["value"].value == 1:
                    altitude_ref = -1
                else:
                    altitude_ref = 1
            elif tag == ExifEntry.TAG_GPS_LATITUDE:
                latitude = [ifd["value_%s[%u]" % (entry.name, index)].value for index in xrange(3)]
            elif tag == ExifEntry.TAG_GPS_LONGITUDE:
                longitude = [ifd["value_%s[%u]" % (entry.name, index)].value for index in xrange(3)]
            elif tag == ExifEntry.TAG_GPS_ALTITUDE:
                altitude = ifd["value_%s" % entry.name].value
            elif tag == ExifEntry.TAG_GPS_DATESTAMP:
                datestamp = ifd["value_%s" % entry.name].value
            elif tag == ExifEntry.TAG_GPS_TIMESTAMP:
                items = [ifd["value_%s[%u]" % (entry.name, index)].value for index in xrange(3)]
                items = map(int, items)
                items = map(str, items)
                timestamp = ":".join(items)
        if latitude_ref and latitude:
            value = deg2float(*latitude)
            if latitude_ref < 0:
                value = -value
            self.latitude = value
        if longitude and longitude_ref:
            value = deg2float(*longitude)
            if longitude_ref < 0:
                value = -value
            self.longitude = value
        if altitude:
            value = altitude
            if altitude_ref < 0:
                value = -value
            self.altitude = value
        if datestamp:
            if timestamp:
                datestamp += " " + timestamp
            self.creation_date = datestamp

    def parseIPTC(self, iptc):
        datestr = hourstr = None
        for field in iptc:
            # Skip incomplete field
            if "tag" not in field or "content" not in field:
                continue

            # Get value
            value = field["content"].value
            if isinstance(value, (str, unicode)):
                value = value.replace("\r", " ")
                value = value.replace("\n", " ")

            # Skip unknown tag
            tag = field["tag"].value
            if tag == 55:
                datestr = value
                continue
            if tag == 60:
                hourstr = value
                continue
            if tag not in self.IPTC_KEY:
                if tag != 0:
                    self.warning("Skip IPTC key %s: %s" % (
                        field["tag"].display, makeUnicode(value)))
                continue
            setattr(self, self.IPTC_KEY[tag], value)
        if datestr and hourstr:
            try:
                year = int(datestr[0:4])
                month = int(datestr[4:6])
                day = int(datestr[6:8])
                hour = int(hourstr[0:2])
                min = int(hourstr[2:4])
                sec = int(hourstr[4:6])
                self.creation_date = datetime(year, month, day, hour, min, sec)
            except ValueError:
                pass

registerExtractor(JpegFile, JpegMetadata)
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			`from lib.hachoir_metadata.metadata import RootMetadata, registerExtractor`
			`from lib.hachoir_metadata.image import computeComprRate`
			`from lib.hachoir_parser.image.exif import ExifEntry`
			`from lib.hachoir_parser.image.jpeg import (`
			`JpegFile, JpegChunk,`
			`QUALITY_HASH_COLOR, QUALITY_SUM_COLOR,`
			`QUALITY_HASH_GRAY, QUALITY_SUM_GRAY)`
			`from lib.hachoir_core.field import MissingField`
			`from lib.hachoir_core.i18n import _`
			`from lib.hachoir_core.tools import makeUnicode`
			`from lib.hachoir_metadata.safe import fault_tolerant`
			`from datetime import datetime`

			`def deg2float(degree, minute, second):`
			`return degree + (float(minute) + float(second) / 60.0) / 60.0`

			`class JpegMetadata(RootMetadata):`
			`EXIF_KEY = {`
			`# Exif metadatas`
			`ExifEntry.TAG_CAMERA_MANUFACTURER: "camera_manufacturer",`
			`ExifEntry.TAG_CAMERA_MODEL: "camera_model",`
			`ExifEntry.TAG_ORIENTATION: "image_orientation",`
			`ExifEntry.TAG_EXPOSURE: "camera_exposure",`
			`ExifEntry.TAG_FOCAL: "camera_focal",`
			`ExifEntry.TAG_BRIGHTNESS: "camera_brightness",`
			`ExifEntry.TAG_APERTURE: "camera_aperture",`

			`# Generic metadatas`
			`ExifEntry.TAG_IMG_TITLE: "title",`
			`ExifEntry.TAG_SOFTWARE: "producer",`
			`ExifEntry.TAG_FILE_TIMESTAMP: "creation_date",`
			`ExifEntry.TAG_WIDTH: "width",`
			`ExifEntry.TAG_HEIGHT: "height",`
			`ExifEntry.TAG_USER_COMMENT: "comment",`
			`}`

			`IPTC_KEY = {`
			`80: "author",`
			`90: "city",`
			`101: "country",`
			`116: "copyright",`
			`120: "title",`
			`231: "comment",`
			`}`

			`orientation_name = {`
			`1: _('Horizontal (normal)'),`
			`2: _('Mirrored horizontal'),`
			`3: _('Rotated 180'),`
			`4: _('Mirrored vertical'),`
			`5: _('Mirrored horizontal then rotated 90 counter-clock-wise'),`
			`6: _('Rotated 90 clock-wise'),`
			`7: _('Mirrored horizontal then rotated 90 clock-wise'),`
			`8: _('Rotated 90 counter clock-wise'),`
			`}`

			`def extract(self, jpeg):`
			`if "start_frame/content" in jpeg:`
			`self.startOfFrame(jpeg["start_frame/content"])`
			`elif "start_scan/content/nr_components" in jpeg:`
			`self.bits_per_pixel = 8 * jpeg["start_scan/content/nr_components"].value`
			`if "app0/content" in jpeg:`
			`self.extractAPP0(jpeg["app0/content"])`

			`if "exif/content" in jpeg:`
			`for ifd in jpeg.array("exif/content/ifd"):`
			`for entry in ifd.array("entry"):`
			`self.processIfdEntry(ifd, entry)`
			`self.readGPS(ifd)`
			`if "photoshop/content" in jpeg:`
			`psd = jpeg["photoshop/content"]`
			`if "version/content/reader_name" in psd:`
			`self.producer = psd["version/content/reader_name"].value`
			`if "iptc/content" in psd:`
			`self.parseIPTC(psd["iptc/content"])`
			`for field in jpeg.array("comment"):`
			`if "content/comment" in field:`
			`self.comment = field["content/comment"].value`
			`self.computeQuality(jpeg)`
			`if "data" in jpeg:`
			`computeComprRate(self, jpeg["data"].size)`
			`if not self.has("producer") and "photoshop" in jpeg:`
			`self.producer = u"Adobe Photoshop"`
			`if self.has("compression"):`
			`self.compression = "JPEG"`

			`@fault_tolerant`
			`def startOfFrame(self, sof):`
			`# Set compression method`
			`key = sof["../type"].value`
			`self.compression = "JPEG (%s)" % JpegChunk.START_OF_FRAME[key]`

			`# Read image size and bits/pixel`
			`self.width = sof["width"].value`
			`self.height = sof["height"].value`
			`nb_components = sof["nr_components"].value`
			`self.bits_per_pixel = 8 * nb_components`
			`if nb_components == 3:`
			`self.pixel_format = _("YCbCr")`
			`elif nb_components == 1:`
			`self.pixel_format = _("Grayscale")`
			`self.nb_colors = 256`

			`@fault_tolerant`
			`def computeQuality(self, jpeg):`
			`# This function is an adaption to Python of ImageMagick code`
			`# to compute JPEG quality using quantization tables`

			`# Read quantization tables`
			`qtlist = []`
			`for dqt in jpeg.array("quantization"):`
			`for qt in dqt.array("content/qt"):`
			`# TODO: Take care of qt["index"].value?`
			`qtlist.append(qt)`
			`if not qtlist:`
			`return`

			`# Compute sum of all coefficients`
			`sumcoeff = 0`
			`for qt in qtlist:`
			`coeff = qt.array("coeff")`
			`for index in xrange(64):`
			`sumcoeff += coeff[index].value`

			`# Choose the right quality table and compute hash value`
			`try:`
			`hashval= qtlist[0]["coeff[2]"].value + qtlist[0]["coeff[53]"].value`
			`if 2 <= len(qtlist):`
			`hashval += qtlist[1]["coeff[0]"].value + qtlist[1]["coeff[63]"].value`
			`hashtable = QUALITY_HASH_COLOR`
			`sumtable = QUALITY_SUM_COLOR`
			`else:`
			`hashtable = QUALITY_HASH_GRAY`
			`sumtable = QUALITY_SUM_GRAY`
			`except (MissingField, IndexError):`
			`# A coefficient is missing, so don't compute JPEG quality`
			`return`

			`# Find the JPEG quality`
			`for index in xrange(100):`
			`if (hashval >= hashtable[index]) or (sumcoeff >= sumtable[index]):`
			`quality = "%s%%" % (index + 1)`
			`if (hashval > hashtable[index]) or (sumcoeff > sumtable[index]):`
			`quality += " " + _("(approximate)")`
			`self.comment = "JPEG quality: %s" % quality`
			`return`

			`@fault_tolerant`
			`def extractAPP0(self, app0):`
			`self.format_version = u"JFIF %u.%02u" \`
			`% (app0["ver_maj"].value, app0["ver_min"].value)`
			`if "y_density" in app0:`
			`self.width_dpi = app0["x_density"].value`
			`self.height_dpi = app0["y_density"].value`

			`@fault_tolerant`
			`def processIfdEntry(self, ifd, entry):`
			`# Skip unknown tags`
			`tag = entry["tag"].value`
			`if tag not in self.EXIF_KEY:`
			`return`
			`key = self.EXIF_KEY[tag]`
			`if key in ("width", "height") and self.has(key):`
			`# EXIF "valid size" are sometimes not updated when the image is scaled`
			`# so we just ignore it`
			`return`

			`# Read value`
			`if "value" in entry:`
			`value = entry["value"].value`
			`else:`
			`value = ifd["value_%s" % entry.name].value`

			`# Convert value to string`
			`if tag == ExifEntry.TAG_ORIENTATION:`
			`value = self.orientation_name.get(value, value)`
			`elif tag == ExifEntry.TAG_EXPOSURE:`
			`if not value:`
			`return`
			`if isinstance(value, float):`
			`value = (value, u"1/%g" % (1/value))`
			`elif entry["type"].value in (ExifEntry.TYPE_RATIONAL, ExifEntry.TYPE_SIGNED_RATIONAL):`
			`value = (value, u"%.3g" % value)`

			`# Store information`
			`setattr(self, key, value)`

			`@fault_tolerant`
			`def readGPS(self, ifd):`
			`# Read latitude and longitude`
			`latitude_ref = None`
			`longitude_ref = None`
			`latitude = None`
			`longitude = None`
			`altitude_ref = 1`
			`altitude = None`
			`timestamp = None`
			`datestamp = None`
			`for entry in ifd.array("entry"):`
			`tag = entry["tag"].value`
			`if tag == ExifEntry.TAG_GPS_LATITUDE_REF:`
			`if entry["value"].value == "N":`
			`latitude_ref = 1`
			`else:`
			`latitude_ref = -1`
			`elif tag == ExifEntry.TAG_GPS_LONGITUDE_REF:`
			`if entry["value"].value == "E":`
			`longitude_ref = 1`
			`else:`
			`longitude_ref = -1`
			`elif tag == ExifEntry.TAG_GPS_ALTITUDE_REF:`
			`if entry["value"].value == 1:`
			`altitude_ref = -1`
			`else:`
			`altitude_ref = 1`
			`elif tag == ExifEntry.TAG_GPS_LATITUDE:`
			`latitude = [ifd["value_%s[%u]" % (entry.name, index)].value for index in xrange(3)]`
			`elif tag == ExifEntry.TAG_GPS_LONGITUDE:`
			`longitude = [ifd["value_%s[%u]" % (entry.name, index)].value for index in xrange(3)]`
			`elif tag == ExifEntry.TAG_GPS_ALTITUDE:`
			`altitude = ifd["value_%s" % entry.name].value`
			`elif tag == ExifEntry.TAG_GPS_DATESTAMP:`
			`datestamp = ifd["value_%s" % entry.name].value`
			`elif tag == ExifEntry.TAG_GPS_TIMESTAMP:`
			`items = [ifd["value_%s[%u]" % (entry.name, index)].value for index in xrange(3)]`
			`items = map(int, items)`
			`items = map(str, items)`
			`timestamp = ":".join(items)`
			`if latitude_ref and latitude:`
			`value = deg2float(*latitude)`
			`if latitude_ref < 0:`
			`value = -value`
			`self.latitude = value`
			`if longitude and longitude_ref:`
			`value = deg2float(*longitude)`
			`if longitude_ref < 0:`
			`value = -value`
			`self.longitude = value`
			`if altitude:`
			`value = altitude`
			`if altitude_ref < 0:`
			`value = -value`
			`self.altitude = value`
			`if datestamp:`
			`if timestamp:`
			`datestamp += " " + timestamp`
			`self.creation_date = datestamp`

			`def parseIPTC(self, iptc):`
			`datestr = hourstr = None`
			`for field in iptc:`
			`# Skip incomplete field`
			`if "tag" not in field or "content" not in field:`
			`continue`

			`# Get value`
			`value = field["content"].value`
			`if isinstance(value, (str, unicode)):`
			`value = value.replace("\r", " ")`
			`value = value.replace("\n", " ")`

			`# Skip unknown tag`
			`tag = field["tag"].value`
			`if tag == 55:`
			`datestr = value`
			`continue`
			`if tag == 60:`
			`hourstr = value`
			`continue`
			`if tag not in self.IPTC_KEY:`
			`if tag != 0:`
			`self.warning("Skip IPTC key %s: %s" % (`
			`field["tag"].display, makeUnicode(value)))`
			`continue`
			`setattr(self, self.IPTC_KEY[tag], value)`
			`if datestr and hourstr:`
			`try:`
			`year = int(datestr[0:4])`
			`month = int(datestr[4:6])`
			`day = int(datestr[6:8])`
			`hour = int(hourstr[0:2])`
			`min = int(hourstr[2:4])`
			`sec = int(hourstr[4:6])`
			`self.creation_date = datetime(year, month, day, hour, min, sec)`
			`except ValueError:`
			`pass`

			`registerExtractor(JpegFile, JpegMetadata)`