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1080 lines
35 KiB
1080 lines
35 KiB
#! /usr/bin/env python
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# Library to extract EXIF information in digital camera image files
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#
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# Contains code from "exifdump.py" originally written by Thierry Bousch
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# <bousch@topo.math.u-psud.fr> and released into the public domain.
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#
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# Updated and turned into general-purpose library by Gene Cash
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# <gcash@cfl.rr.com>
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#
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# NOTE: This version has been modified by Leif Jensen
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#
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# This copyright license is intended to be similar to the FreeBSD license.
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#
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# Copyright 2002 Gene Cash All rights reserved.
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#
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# Redistribution and use in source and binary forms, with or without
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# modification, are permitted provided that the following conditions are
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# met:
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#
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# 1. Redistributions of source code must retain the above copyright
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# notice, this list of conditions and the following disclaimer.
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# 2. Redistributions in binary form must reproduce the above copyright
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# notice, this list of conditions and the following disclaimer in the
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# documentation and/or other materials provided with the
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# distribution.
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#
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# THIS SOFTWARE IS PROVIDED BY GENE CASH ``AS IS'' AND ANY EXPRESS OR
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# IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
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# OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
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# DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE FOR
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# ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
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# DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
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# OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
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# HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
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# STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN
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# ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
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# POSSIBILITY OF SUCH DAMAGE.
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#
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# This means you may do anything you want with this code, except claim you
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# wrote it. Also, if it breaks you get to keep both pieces.
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#
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# 21-AUG-99 TB Last update by Thierry Bousch to his code.
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# 17-JAN-02 CEC Discovered code on web.
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# Commented everything.
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# Made small code improvements.
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# Reformatted for readability.
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# 19-JAN-02 CEC Added ability to read TIFFs and JFIF-format JPEGs.
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# Added ability to extract JPEG formatted thumbnail.
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# Added ability to read GPS IFD (not tested).
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# Converted IFD data structure to dictionaries indexed by
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# tag name.
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# Factored into library returning dictionary of IFDs plus
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# thumbnail, if any.
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# 20-JAN-02 CEC Added MakerNote processing logic.
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# Added Olympus MakerNote.
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# Converted data structure to single-level dictionary, avoiding
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# tag name collisions by prefixing with IFD name. This makes
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# it much easier to use.
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# 23-JAN-02 CEC Trimmed nulls from end of string values.
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# 25-JAN-02 CEC Discovered JPEG thumbnail in Olympus TIFF MakerNote.
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# 26-JAN-02 CEC Added ability to extract TIFF thumbnails.
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# Added Nikon, Fujifilm, Casio MakerNotes.
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#
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# To do:
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# * Finish Canon MakerNote format
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# * Better printing of ratios
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# field type descriptions as (length, abbreviation, full name) tuples
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FIELD_TYPES=(
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(0, 'X', 'Dummy'), # no such type
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(1, 'B', 'Byte'),
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(1, 'A', 'ASCII'),
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(2, 'S', 'Short'),
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(4, 'L', 'Long'),
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(8, 'R', 'Ratio'),
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(1, 'SB', 'Signed Byte'),
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(1, 'U', 'Undefined'),
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(2, 'SS', 'Signed Short'),
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(4, 'SL', 'Signed Long'),
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(8, 'SR', 'Signed Ratio')
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)
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# dictionary of main EXIF tag names
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# first element of tuple is tag name, optional second element is
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# another dictionary giving names to values
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EXIF_TAGS={
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0x0100: ('ImageWidth', ),
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0x0101: ('ImageLength', ),
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0x0102: ('BitsPerSample', ),
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0x0103: ('Compression',
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{1: 'Uncompressed TIFF',
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6: 'JPEG Compressed'}),
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0x0106: ('PhotometricInterpretation', ),
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0x010A: ('FillOrder', ),
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0x010D: ('DocumentName', ),
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0x010E: ('ImageDescription', ),
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0x010F: ('Make', ),
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0x0110: ('Model', ),
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0x0111: ('StripOffsets', ),
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0x0112: ('Qt::Orientation', ),
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0x0115: ('SamplesPerPixel', ),
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0x0116: ('RowsPerStrip', ),
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0x0117: ('StripByteCounts', ),
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0x011A: ('XResolution', ),
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0x011B: ('YResolution', ),
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0x011C: ('PlanarConfiguration', ),
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0x0128: ('ResolutionUnit',
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{1: 'Not Absolute',
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2: 'Pixels/Inch',
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3: 'Pixels/Centimeter'}),
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0x012D: ('TransferFunction', ),
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0x0131: ('Software', ),
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0x0132: ('DateTime', ),
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0x013B: ('Artist', ),
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0x013E: ('WhitePoint', ),
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0x013F: ('PrimaryChromaticities', ),
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0x0156: ('TransferRange', ),
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0x0200: ('JPEGProc', ),
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0x0201: ('JPEGInterchangeFormat', ),
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0x0202: ('JPEGInterchangeFormatLength', ),
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0x0211: ('YCbCrCoefficients', ),
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0x0212: ('YCbCrSubSampling', ),
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0x0213: ('YCbCrPositioning', ),
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0x0214: ('ReferenceBlackWhite', ),
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0x828D: ('CFARepeatPatternDim', ),
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0x828E: ('CFAPattern', ),
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0x828F: ('BatteryLevel', ),
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0x8298: ('Copyright', ),
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0x829A: ('ExposureTime', ),
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0x829D: ('FNumber', ),
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0x83BB: ('IPTC/NAA', ),
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0x8769: ('ExifOffset', ),
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0x8773: ('InterColorProfile', ),
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0x8822: ('ExposureProgram',
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{0: 'Unidentified',
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1: 'Manual',
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2: 'Program Normal',
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3: 'Aperture Priority',
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4: 'Shutter Priority',
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5: 'Program Creative',
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6: 'Program Action',
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7: 'Portrait Mode',
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8: 'Landscape Mode'}),
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0x8824: ('SpectralSensitivity', ),
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0x8825: ('GPSInfo', ),
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0x8827: ('ISOSpeedRatings', ),
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0x8828: ('OECF', ),
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0x9000: ('ExifVersion', ),
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0x9003: ('DateTimeOriginal', ),
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0x9004: ('DateTimeDigitized', ),
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0x9101: ('ComponentsConfiguration',
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{0: '',
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1: 'Y',
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2: 'Cb',
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3: 'Cr',
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4: 'Red',
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5: 'Green',
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6: 'Blue'}),
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0x9102: ('CompressedBitsPerPixel', ),
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0x9201: ('ShutterSpeedValue', ),
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0x9202: ('ApertureValue', ),
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0x9203: ('BrightnessValue', ),
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0x9204: ('ExposureBiasValue', ),
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0x9205: ('MaxApertureValue', ),
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0x9206: ('SubjectDistance', ),
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0x9207: ('MeteringMode',
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{0: 'Unidentified',
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1: 'Average',
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2: 'CenterWeightedAverage',
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3: 'Spot',
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4: 'MultiSpot'}),
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0x9208: ('LightSource',
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{0: 'Unknown',
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1: 'Daylight',
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2: 'Fluorescent',
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3: 'Tungsten',
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10: 'Flash',
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17: 'Standard Light A',
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18: 'Standard Light B',
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19: 'Standard Light C',
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20: 'D55',
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21: 'D65',
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22: 'D75',
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255: 'Other'}),
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0x9209: ('Flash', {0: 'No',
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1: 'Fired',
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5: 'Fired (?)', # no return sensed
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7: 'Fired (!)', # return sensed
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9: 'Fill Fired',
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13: 'Fill Fired (?)',
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15: 'Fill Fired (!)',
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16: 'Off',
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24: 'Auto Off',
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25: 'Auto Fired',
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29: 'Auto Fired (?)',
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31: 'Auto Fired (!)',
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32: 'Not Available'}),
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0x920A: ('FocalLength', ),
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0x927C: ('MakerNote', ),
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0x9286: ('UserComment', ),
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0x9290: ('SubSecTime', ),
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0x9291: ('SubSecTimeOriginal', ),
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0x9292: ('SubSecTimeDigitized', ),
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0xA000: ('FlashPixVersion', ),
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0xA001: ('ColorSpace', ),
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0xA002: ('ExifImageWidth', ),
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0xA003: ('ExifImageLength', ),
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0xA005: ('InteroperabilityOffset', ),
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0xA20B: ('FlashEnergy', ), # 0x920B in TIFF/EP
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0xA20C: ('SpatialFrequencyResponse', ), # 0x920C - -
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0xA20E: ('FocalPlaneXResolution', ), # 0x920E - -
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0xA20F: ('FocalPlaneYResolution', ), # 0x920F - -
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0xA210: ('FocalPlaneResolutionUnit', ), # 0x9210 - -
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0xA214: ('SubjectLocation', ), # 0x9214 - -
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0xA215: ('ExposureIndex', ), # 0x9215 - -
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0xA217: ('SensingMethod', ), # 0x9217 - -
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0xA300: ('FileSource',
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{3: 'Digital Camera'}),
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0xA301: ('SceneType',
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{1: 'Directly Photographed'}),
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}
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# interoperability tags
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INTR_TAGS={
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0x0001: ('InteroperabilityIndex', ),
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0x0002: ('InteroperabilityVersion', ),
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0x1000: ('RelatedImageFileFormat', ),
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0x1001: ('RelatedImageWidth', ),
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0x1002: ('RelatedImageLength', ),
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}
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# GPS tags (not used yet, haven't seen camera with GPS)
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GPS_TAGS={
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0x0000: ('GPSVersionID', ),
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0x0001: ('GPSLatitudeRef', ),
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0x0002: ('GPSLatitude', ),
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0x0003: ('GPSLongitudeRef', ),
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0x0004: ('GPSLongitude', ),
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0x0005: ('GPSAltitudeRef', ),
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0x0006: ('GPSAltitude', ),
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0x0007: ('GPSTimeStamp', ),
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0x0008: ('GPSSatellites', ),
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0x0009: ('GPStqStatus', ),
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0x000A: ('GPSMeasureMode', ),
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0x000B: ('GPSDOP', ),
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0x000C: ('GPSSpeedRef', ),
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0x000D: ('GPSSpeed', ),
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0x000E: ('GPSTrackRef', ),
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0x000F: ('GPSTrack', ),
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0x0010: ('GPSImgDirectionRef', ),
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0x0011: ('GPSImgDirection', ),
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0x0012: ('GPSMapDatum', ),
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0x0013: ('GPSDestLatitudeRef', ),
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0x0014: ('GPSDestLatitude', ),
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0x0015: ('GPSDestLongitudeRef', ),
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0x0016: ('GPSDestLongitude', ),
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0x0017: ('GPSDestBearingRef', ),
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0x0018: ('GPSDestBearing', ),
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0x0019: ('GPSDestDistanceRef', ),
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0x001A: ('GPSDestDistance', )
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}
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# Nikon E99x MakerNote Tags
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# http://members.tripod.com/~tawba/990exif.htm
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MAKERNOTE_NIKON_NEWER_TAGS={
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0x0002: ('ISOSetting', ),
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0x0003: ('ColorMode', ),
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0x0004: ('Quality', ),
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0x0005: ('Whitebalance', ),
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0x0006: ('ImageSharpening', ),
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0x0007: ('FocusMode', ),
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0x0008: ('FlashSetting', ),
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0x000F: ('ISOSelection', ),
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0x0080: ('ImageAdjustment', ),
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0x0082: ('AuxiliaryLens', ),
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0x0085: ('ManualFocusDistance', ),
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0x0086: ('DigitalZoomFactor', ),
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0x0088: ('AFFocusPosition',
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{0x0000: 'Center',
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0x0100: 'Top',
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0x0200: 'Bottom',
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0x0300: 'Left',
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0x0400: 'Right'}),
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0x0094: ('Saturation',
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{-3: 'B&W',
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-2: '-2',
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-1: '-1',
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0: '0',
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1: '1',
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2: '2'}),
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0x0095: ('NoiseReduction', ),
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0x0010: ('DataDump', )
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}
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MAKERNOTE_NIKON_OLDER_TAGS={
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0x0003: ('Quality',
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{1: 'VGA Basic',
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2: 'VGA Normal',
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3: 'VGA Fine',
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4: 'SXGA Basic',
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5: 'SXGA Normal',
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6: 'SXGA Fine'}),
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0x0004: ('ColorMode',
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{1: 'Color',
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2: 'Monochrome'}),
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0x0005: ('ImageAdjustment',
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{0: 'Normal',
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1: 'Bright+',
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2: 'Bright-',
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3: 'Contrast+',
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4: 'Contrast-'}),
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0x0006: ('CCDSpeed',
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{0: 'ISO 80',
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2: 'ISO 160',
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4: 'ISO 320',
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5: 'ISO 100'}),
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0x0007: ('WhiteBalance',
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{0: 'Auto',
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1: 'Preset',
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2: 'Daylight',
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3: 'Incandescent',
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4: 'Fluorescent',
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5: 'Cloudy',
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6: 'Speed Light'})
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}
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# decode Olympus SpecialMode tag in MakerNote
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def olympus_special_mode(v):
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a={
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0: 'Normal',
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1: 'Unknown',
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2: 'Fast',
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3: 'Panorama'}
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b={
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0: 'Non-panoramic',
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1: 'Left to right',
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2: 'Right to left',
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3: 'Bottom to top',
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4: 'Top to bottom'}
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return '%s - sequence %d - %s' % (a[v[0]], v[1], b[v[2]])
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MAKERNOTE_OLYMPUS_TAGS={
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# ah HAH! those sneeeeeaky bastids! this is how they get past the fact
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# that a JPEG thumbnail is not allowed in an uncompressed TIFF file
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0x0100: ('JPEGThumbnail', ),
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0x0200: ('SpecialMode', olympus_special_mode),
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0x0201: ('JPEGQual',
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{1: 'SQ',
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2: 'HQ',
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3: 'SHQ'}),
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0x0202: ('Macro',
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{0: 'Normal',
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1: 'Macro'}),
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0x0204: ('DigitalZoom', ),
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0x0207: ('SoftwareRelease', ),
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0x0208: ('PictureInfo', ),
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# print as string
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0x0209: ('CameraID', lambda x: ''.join(map(chr, x))),
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0x0F00: ('DataDump', )
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}
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MAKERNOTE_CASIO_TAGS={
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0x0001: ('RecordingMode',
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{1: 'Single Shutter',
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2: 'Panorama',
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3: 'Night Scene',
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4: 'Portrait',
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5: 'Landscape'}),
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0x0002: ('Quality',
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{1: 'Economy',
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2: 'Normal',
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3: 'Fine'}),
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0x0003: ('FocusingMode',
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{2: 'Macro',
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3: 'Auto Focus',
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4: 'Manual Focus',
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5: 'Infinity'}),
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0x0004: ('FlashMode',
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{1: 'Auto',
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2: 'On',
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3: 'Off',
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4: 'Red Eye Reduction'}),
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0x0005: ('FlashIntensity',
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{11: 'Weak',
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13: 'Normal',
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15: 'Strong'}),
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0x0006: ('Object Distance', ),
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0x0007: ('WhiteBalance',
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{1: 'Auto',
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2: 'Tungsten',
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3: 'Daylight',
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4: 'Fluorescent',
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5: 'Shade',
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129: 'Manual'}),
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0x000B: ('Sharpness',
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{0: 'Normal',
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1: 'Soft',
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2: 'Hard'}),
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0x000C: ('Contrast',
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{0: 'Normal',
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1: 'Low',
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2: 'High'}),
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0x000D: ('Saturation',
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{0: 'Normal',
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1: 'Low',
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2: 'High'}),
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0x0014: ('CCDSpeed',
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{64: 'Normal',
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80: 'Normal',
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100: 'High',
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125: '+1.0',
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244: '+3.0',
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250: '+2.0',})
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}
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MAKERNOTE_FUJIFILM_TAGS={
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0x0000: ('NoteVersion', lambda x: ''.join(map(chr, x))),
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0x1000: ('Quality', ),
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0x1001: ('Sharpness',
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{1: 'Soft',
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2: 'Soft',
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3: 'Normal',
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4: 'Hard',
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5: 'Hard'}),
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0x1002: ('WhiteBalance',
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{0: 'Auto',
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256: 'Daylight',
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512: 'Cloudy',
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768: 'DaylightColor-Fluorescent',
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769: 'DaywhiteColor-Fluorescent',
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770: 'White-Fluorescent',
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1024: 'Incandescent',
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3840: 'Custom'}),
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0x1003: ('Color',
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{0: 'Normal',
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256: 'High',
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512: 'Low'}),
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0x1004: ('Tone',
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{0: 'Normal',
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256: 'High',
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512: 'Low'}),
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0x1010: ('FlashMode',
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{0: 'Auto',
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1: 'On',
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2: 'Off',
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3: 'Red Eye Reduction'}),
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0x1011: ('FlashStrength', ),
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0x1020: ('Macro',
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{0: 'Off',
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1: 'On'}),
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0x1021: ('FocusMode',
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{0: 'Auto',
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1: 'Manual'}),
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0x1030: ('SlowSync',
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{0: 'Off',
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1: 'On'}),
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0x1031: ('PictureMode',
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{0: 'Auto',
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1: 'Portrait',
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2: 'Landscape',
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4: 'Sports',
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5: 'Night',
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6: 'Program AE',
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256: 'Aperture Priority AE',
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512: 'Shutter Priority AE',
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768: 'Manual Exposure'}),
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0x1100: ('MotorOrBracket',
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{0: 'Off',
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1: 'On'}),
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0x1300: ('BlurWarning',
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{0: 'Off',
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1: 'On'}),
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0x1301: ('FocusWarning',
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{0: 'Off',
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1: 'On'}),
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0x1302: ('AEWarning',
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{0: 'Off',
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1: 'On'})
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}
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MAKERNOTE_CANON_TAGS={
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0x0006: ('ImageType', ),
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0x0007: ('FirmwareVersion', ),
|
|
0x0008: ('ImageNumber', ),
|
|
0x0009: ('OwnerName', )
|
|
}
|
|
|
|
# see http://www.burren.cx/david/canon.html by David Burren
|
|
# this is in element offset, name, optional value dictionary format
|
|
MAKERNOTE_CANON_TAG_0x001={
|
|
1: ('Macromode',
|
|
{1: 'Macro',
|
|
2: 'Normal'}),
|
|
2: ('SelfTimer', ),
|
|
3: ('Quality',
|
|
{2: 'Normal',
|
|
3: 'Fine',
|
|
5: 'Superfine'}),
|
|
4: ('FlashMode',
|
|
{0: 'Flash Not Fired',
|
|
1: 'Auto',
|
|
2: 'On',
|
|
3: 'Red-Eye Reduction',
|
|
4: 'Slow Synchro',
|
|
5: 'Auto + Red-Eye Reduction',
|
|
6: 'On + Red-Eye Reduction',
|
|
16: 'external flash'}),
|
|
5: ('ContinuousDriveMode',
|
|
{0: 'Single Or Timer',
|
|
1: 'Continuous'}),
|
|
7: ('FocusMode',
|
|
{0: 'One-Shot',
|
|
1: 'AI Servo',
|
|
2: 'AI Focus',
|
|
3: 'MF',
|
|
4: 'Single',
|
|
5: 'Continuous',
|
|
6: 'MF'}),
|
|
10: ('ImageSize',
|
|
{0: 'Large',
|
|
1: 'Medium',
|
|
2: 'Small'}),
|
|
11: ('EasyShootingMode',
|
|
{0: 'Full Auto',
|
|
1: 'Manual',
|
|
2: 'Landscape',
|
|
3: 'Fast Shutter',
|
|
4: 'Slow Shutter',
|
|
5: 'Night',
|
|
6: 'B&W',
|
|
7: 'Sepia',
|
|
8: 'Portrait',
|
|
9: 'Sports',
|
|
10: 'Macro/Close-Up',
|
|
11: 'Pan Focus'}),
|
|
12: ('DigitalZoom',
|
|
{0: 'None',
|
|
1: '2x',
|
|
2: '4x'}),
|
|
13: ('Contrast',
|
|
{0xFFFF: 'Low',
|
|
0: 'Normal',
|
|
1: 'High'}),
|
|
14: ('Saturation',
|
|
{0xFFFF: 'Low',
|
|
0: 'Normal',
|
|
1: 'High'}),
|
|
15: ('Sharpness',
|
|
{0xFFFF: 'Low',
|
|
0: 'Normal',
|
|
1: 'High'}),
|
|
16: ('ISO',
|
|
{0: 'See ISOSpeedRatings Tag',
|
|
15: 'Auto',
|
|
16: '50',
|
|
17: '100',
|
|
18: '200',
|
|
19: '400'}),
|
|
17: ('MeteringMode',
|
|
{3: 'Evaluative',
|
|
4: 'Partial',
|
|
5: 'Center-weighted'}),
|
|
18: ('FocusType',
|
|
{0: 'Manual',
|
|
1: 'Auto',
|
|
3: 'Close-Up (Macro)',
|
|
8: 'Locked (Pan Mode)'}),
|
|
19: ('AFPointSelected',
|
|
{0x3000: 'None (MF)',
|
|
0x3001: 'Auto-Selected',
|
|
0x3002: 'Right',
|
|
0x3003: 'Center',
|
|
0x3004: 'Left'}),
|
|
20: ('ExposureMode',
|
|
{0: 'Easy Shooting',
|
|
1: 'Program',
|
|
2: 'Tv-priority',
|
|
3: 'Av-priority',
|
|
4: 'Manual',
|
|
5: 'A-DEP'}),
|
|
23: ('LongFocalLengthOfLensInFocalUnits', ),
|
|
24: ('ShortFocalLengthOfLensInFocalUnits', ),
|
|
25: ('FocalUnitsPerMM', ),
|
|
28: ('FlashActivity',
|
|
{0: 'Did Not Fire',
|
|
1: 'Fired'}),
|
|
29: ('FlashDetails',
|
|
{14: 'External E-TTL',
|
|
13: 'Internal Flash',
|
|
11: 'FP Sync Used',
|
|
7: '2nd("Rear")-Curtain Sync Used',
|
|
4: 'FP Sync Enabled'}),
|
|
32: ('FocusMode',
|
|
{0: 'Single',
|
|
1: 'Continuous'})
|
|
}
|
|
|
|
MAKERNOTE_CANON_TAG_0x004={
|
|
7: ('WhiteBalance',
|
|
{0: 'Auto',
|
|
1: 'Sunny',
|
|
2: 'Cloudy',
|
|
3: 'Tungsten',
|
|
4: 'Fluorescent',
|
|
5: 'Flash',
|
|
6: 'Custom'}),
|
|
9: ('SequenceNumber', ),
|
|
14: ('AFPointUsed', ),
|
|
15: ('FlashBias',
|
|
{0XFFC0: '-2 EV',
|
|
0XFFCC: '-1.67 EV',
|
|
0XFFD0: '-1.50 EV',
|
|
0XFFD4: '-1.33 EV',
|
|
0XFFE0: '-1 EV',
|
|
0XFFEC: '-0.67 EV',
|
|
0XFFF0: '-0.50 EV',
|
|
0XFFF4: '-0.33 EV',
|
|
0X0000: '0 EV',
|
|
0X000C: '0.33 EV',
|
|
0X0010: '0.50 EV',
|
|
0X0014: '0.67 EV',
|
|
0X0020: '1 EV',
|
|
0X002C: '1.33 EV',
|
|
0X0030: '1.50 EV',
|
|
0X0034: '1.67 EV',
|
|
0X0040: '2 EV'}),
|
|
19: ('SubjectDistance', )
|
|
}
|
|
|
|
# extract multibyte integer in Motorola format (little endian)
|
|
def s2n_motorola(str):
|
|
x=0
|
|
for c in str:
|
|
x=(long(x) << 8) | ord(c)
|
|
return x
|
|
|
|
# extract multibyte integer in Intel format (big endian)
|
|
def s2n_intel(str):
|
|
x=0
|
|
y=0
|
|
for c in str:
|
|
x=x | (ord(c) << y)
|
|
y=y+8
|
|
return x
|
|
|
|
# ratio object that eventually will be able to reduce itself to lowest
|
|
# common denominator for printing
|
|
def gcd(a, b):
|
|
if b == 0:
|
|
return a
|
|
else:
|
|
return gcd(b, a % b)
|
|
|
|
class Ratio:
|
|
def __init__(self, num, den):
|
|
self.num=num
|
|
self.den=den
|
|
|
|
def __repr__(self):
|
|
# self.reduce() # ugh, 259/250 worse 1036/1000
|
|
if self.den == 1:
|
|
return str(self.num)
|
|
return '%d/%d' % (self.num, self.den)
|
|
|
|
def reduce(self):
|
|
div=gcd(self.num, self.den)
|
|
if div > 1:
|
|
self.num=self.num/div
|
|
self.den=self.den/div
|
|
|
|
# for ease of dealing with tags
|
|
class IFD_Tag:
|
|
def __init__(self, printable, tag, field_type, values, field_offset,
|
|
field_length):
|
|
self.printable=printable
|
|
self.tag=tag
|
|
self.field_type=field_type
|
|
self.field_offset=field_offset
|
|
self.field_length=field_length
|
|
self.values=values
|
|
|
|
def __str__(self):
|
|
return self.printable
|
|
|
|
def __repr__(self):
|
|
return '(0x%04X) %s=%s @ %d' % (self.tag,
|
|
FIELD_TYPES[self.field_type][2],
|
|
self.printable,
|
|
self.field_offset)
|
|
|
|
# class that handles an EXIF header
|
|
class EXIF_header:
|
|
def __init__(self, file, endian, offset, debug=0):
|
|
self.file=file
|
|
self.endian=endian
|
|
self.offset=offset
|
|
self.debug=debug
|
|
self.tags={}
|
|
|
|
# convert slice to integer, based on sign and endian flags
|
|
def s2n(self, offset, length, signed=0):
|
|
self.file.seek(self.offset+offset)
|
|
slice=self.file.read(length)
|
|
if self.endian == 'I':
|
|
val=s2n_intel(slice)
|
|
else:
|
|
val=s2n_motorola(slice)
|
|
# Sign extension ?
|
|
if signed:
|
|
msb=1L << (8*length-1)
|
|
if val & msb:
|
|
val=val-(msb << 1)
|
|
return val
|
|
|
|
# convert offset to string
|
|
def n2s(self, offset, length):
|
|
s=''
|
|
for i in range(length):
|
|
if self.endian == 'I':
|
|
s=s+chr(offset & 0xFF)
|
|
else:
|
|
s=chr(offset & 0xFF)+s
|
|
offset=offset >> 8
|
|
return s
|
|
|
|
# return first IFD
|
|
def first_IFD(self):
|
|
return self.s2n(4, 4)
|
|
|
|
# return pointer to next IFD
|
|
def next_IFD(self, ifd):
|
|
entries=self.s2n(ifd, 2)
|
|
return self.s2n(ifd+2+12*entries, 4)
|
|
|
|
# return list of IFDs in header
|
|
def list_IFDs(self):
|
|
i=self.first_IFD()
|
|
a=[]
|
|
while i:
|
|
a.append(i)
|
|
i=self.next_IFD(i)
|
|
return a
|
|
|
|
# return list of entries in this IFD
|
|
def dump_IFD(self, ifd, ifd_name, dict=EXIF_TAGS):
|
|
entries=self.s2n(ifd, 2)
|
|
for i in range(entries):
|
|
entry=ifd+2+12*i
|
|
tag=self.s2n(entry, 2)
|
|
field_type=self.s2n(entry+2, 2)
|
|
if not 0 < field_type < len(FIELD_TYPES):
|
|
# unknown field type
|
|
raise ValueError, \
|
|
'unknown type %d in tag 0x%04X' % (field_type, tag)
|
|
typelen=FIELD_TYPES[field_type][0]
|
|
count=self.s2n(entry+4, 4)
|
|
offset=entry+8
|
|
if count*typelen > 4:
|
|
# not the value, it's a pointer to the value
|
|
offset=self.s2n(offset, 4)
|
|
field_offset=offset
|
|
if field_type == 2:
|
|
# special case: null-terminated ASCII string
|
|
if count != 0:
|
|
self.file.seek(self.offset+offset)
|
|
values=self.file.read(count).strip().tqreplace('\x00','')
|
|
else:
|
|
values=''
|
|
elif tag == 0x927C or tag == 0x9286: # MakerNote or UserComment
|
|
# elif tag == 0x9286: # UserComment
|
|
values=[]
|
|
else:
|
|
values=[]
|
|
signed=(field_type in [6, 8, 9, 10])
|
|
for j in range(count):
|
|
if field_type in (5, 10):
|
|
# a ratio
|
|
value_j=Ratio(self.s2n(offset, 4, signed),
|
|
self.s2n(offset+4, 4, signed))
|
|
else:
|
|
value_j=self.s2n(offset, typelen, signed)
|
|
values.append(value_j)
|
|
offset=offset+typelen
|
|
# now "values" is either a string or an array
|
|
if count == 1 and field_type != 2:
|
|
printable=str(values[0])
|
|
else:
|
|
printable=str(values)
|
|
# figure out tag name
|
|
tag_entry=dict.get(tag)
|
|
if tag_entry:
|
|
tag_name=tag_entry[0]
|
|
if len(tag_entry) != 1:
|
|
# optional 2nd tag element is present
|
|
if callable(tag_entry[1]):
|
|
# call mapping function
|
|
printable=tag_entry[1](values)
|
|
else:
|
|
printable=''
|
|
for i in values:
|
|
# use LUT for this tag
|
|
printable+=tag_entry[1].get(i, repr(i))
|
|
else:
|
|
tag_name='Tag 0x%04X' % tag
|
|
self.tags[ifd_name+' '+tag_name]=IFD_Tag(printable, tag,
|
|
field_type,
|
|
values, field_offset,
|
|
count*typelen)
|
|
if self.debug:
|
|
print ' %s: %s' % (tag_name,
|
|
repr(self.tags[ifd_name+' '+tag_name]))
|
|
|
|
# extract uncompressed TIFF thumbnail (like pulling teeth)
|
|
# we take advantage of the pre-existing tqlayout in the thumbnail IFD as
|
|
# much as possible
|
|
def extract_TIFF_thumbnail(self, thumb_ifd):
|
|
entries=self.s2n(thumb_ifd, 2)
|
|
# this is header plus offset to IFD ...
|
|
if self.endian == 'M':
|
|
tiff='MM\x00*\x00\x00\x00\x08'
|
|
else:
|
|
tiff='II*\x00\x08\x00\x00\x00'
|
|
# ... plus thumbnail IFD data plus a null "next IFD" pointer
|
|
self.file.seek(self.offset+thumb_ifd)
|
|
tiff+=self.file.read(entries*12+2)+'\x00\x00\x00\x00'
|
|
|
|
# fix up large value offset pointers into data area
|
|
for i in range(entries):
|
|
entry=thumb_ifd+2+12*i
|
|
tag=self.s2n(entry, 2)
|
|
field_type=self.s2n(entry+2, 2)
|
|
typelen=FIELD_TYPES[field_type][0]
|
|
count=self.s2n(entry+4, 4)
|
|
oldoff=self.s2n(entry+8, 4)
|
|
# start of the 4-byte pointer area in entry
|
|
ptr=i*12+18
|
|
# remember strip offsets location
|
|
if tag == 0x0111:
|
|
strip_off=ptr
|
|
strip_len=count*typelen
|
|
# is it in the data area?
|
|
if count*typelen > 4:
|
|
# update offset pointer (nasty "strings are immutable" crap)
|
|
# should be able to say "tiff[ptr:ptr+4]=newoff"
|
|
newoff=len(tiff)
|
|
tiff=tiff[:ptr]+self.n2s(newoff, 4)+tiff[ptr+4:]
|
|
# remember strip offsets location
|
|
if tag == 0x0111:
|
|
strip_off=newoff
|
|
strip_len=4
|
|
# get original data and store it
|
|
self.file.seek(self.offset+oldoff)
|
|
tiff+=self.file.read(count*typelen)
|
|
|
|
# add pixel strips and update strip offset info
|
|
old_offsets=self.tags['Thumbnail StripOffsets'].values
|
|
old_counts=self.tags['Thumbnail StripByteCounts'].values
|
|
for i in range(len(old_offsets)):
|
|
# update offset pointer (more nasty "strings are immutable" crap)
|
|
offset=self.n2s(len(tiff), strip_len)
|
|
tiff=tiff[:strip_off]+offset+tiff[strip_off+strip_len:]
|
|
strip_off+=strip_len
|
|
# add pixel strip to end
|
|
self.file.seek(self.offset+old_offsets[i])
|
|
tiff+=self.file.read(old_counts[i])
|
|
|
|
self.tags['TIFFThumbnail']=tiff
|
|
|
|
# decode all the camera-specific MakerNote formats
|
|
def decode_maker_note(self):
|
|
note=self.tags['EXIF MakerNote']
|
|
make=self.tags['Image Make'].printable
|
|
model=self.tags['Image Model'].printable
|
|
|
|
# Nikon
|
|
if make == 'NIKON':
|
|
if note.values[0:5] == [78, 105, 107, 111, 110]: # "Nikon"
|
|
# older model
|
|
self.dump_IFD(note.field_offset+8, 'MakerNote',
|
|
dict=MAKERNOTE_NIKON_OLDER_TAGS)
|
|
else:
|
|
# newer model (E99x or D1)
|
|
self.dump_IFD(note.field_offset, 'MakerNote',
|
|
dict=MAKERNOTE_NIKON_NEWER_TAGS)
|
|
return
|
|
|
|
# Olympus
|
|
if make[:7] == 'OLYMPUS':
|
|
self.dump_IFD(note.field_offset+8, 'MakerNote',
|
|
dict=MAKERNOTE_OLYMPUS_TAGS)
|
|
return
|
|
|
|
# Casio
|
|
if make == 'Casio':
|
|
self.dump_IFD(note.field_offset, 'MakerNote',
|
|
dict=MAKERNOTE_CASIO_TAGS)
|
|
return
|
|
|
|
# Fujifilm
|
|
if make == 'FUJIFILM':
|
|
# bug: everything else is "Motorola" endian, but the MakerNote
|
|
# is "Intel" endian
|
|
endian=self.endian
|
|
self.endian='I'
|
|
# bug: IFD offsets are from beginning of MakerNote, not
|
|
# beginning of file header
|
|
offset=self.offset
|
|
self.offset+=note.field_offset
|
|
# process note with bogus values (note is actually at offset 12)
|
|
self.dump_IFD(12, 'MakerNote', dict=MAKERNOTE_FUJIFILM_TAGS)
|
|
# reset to correct values
|
|
self.endian=endian
|
|
self.offset=offset
|
|
return
|
|
|
|
# Canon
|
|
if make == 'Canon':
|
|
self.dump_IFD(note.field_offset, 'MakerNote',
|
|
dict=MAKERNOTE_CANON_TAGS)
|
|
for i in (('MakerNote Tag 0x0001', MAKERNOTE_CANON_TAG_0x001),
|
|
('MakerNote Tag 0x0004', MAKERNOTE_CANON_TAG_0x004)):
|
|
if self.debug:
|
|
print ' SubMakerNote BitSet for ' +i[0]
|
|
self.canon_decode_tag(self.tags[i[0]].values, i[1])
|
|
return
|
|
|
|
# decode Canon MakerNote tag based on offset within tag
|
|
# see http://www.burren.cx/david/canon.html by David Burren
|
|
def canon_decode_tag(self, value, dict):
|
|
for i in range(1, len(value)):
|
|
x=dict.get(i, ('Unknown', ))
|
|
# if self.debug:
|
|
# print i, x
|
|
name=x[0]
|
|
if len(x) > 1:
|
|
val=x[1].get(value[i], 'Unknown')
|
|
else:
|
|
val=value[i]
|
|
if self.debug:
|
|
print ' '+name+':', val
|
|
self.tags['MakerNote '+name]=val
|
|
|
|
# process an image file (expects an open file object)
|
|
# this is the function that has to deal with all the arbitrary nasty bits
|
|
# of the EXIF standard
|
|
def process_file(file, debug=0, noclose=0):
|
|
# determine whether it's a JPEG or TIFF
|
|
data=file.read(12)
|
|
if data[0:4] in ['II*\x00', 'MM\x00*']:
|
|
# it's a TIFF file
|
|
file.seek(0)
|
|
endian=file.read(1)
|
|
file.read(1)
|
|
offset=0
|
|
elif data[0:2] == '\xFF\xD8':
|
|
# it's a JPEG file
|
|
# skip JFIF style header(s)
|
|
while data[2] == '\xFF' and data[6:10] in ('JFIF', 'JFXX', 'OLYM'):
|
|
length=ord(data[4])*256+ord(data[5])
|
|
file.read(length-8)
|
|
# fake an EXIF beginning of file
|
|
data='\xFF\x00'+file.read(10)
|
|
if data[2] == '\xFF' and data[6:10] == 'Exif':
|
|
# detected EXIF header
|
|
offset=file.tell()
|
|
endian=file.read(1)
|
|
else:
|
|
# no EXIF information
|
|
return {}
|
|
else:
|
|
# file format not recognized
|
|
return {}
|
|
|
|
# deal with the EXIF info we found
|
|
if debug:
|
|
print {'I': 'Intel', 'M': 'Motorola'}[endian], 'format'
|
|
hdr=EXIF_header(file, endian, offset, debug)
|
|
ifd_list=hdr.list_IFDs()
|
|
ctr=0
|
|
for i in ifd_list:
|
|
if ctr == 0:
|
|
IFD_name='Image'
|
|
elif ctr == 1:
|
|
IFD_name='Thumbnail'
|
|
thumb_ifd=i
|
|
else:
|
|
IFD_name='IFD %d' % ctr
|
|
if debug:
|
|
print ' IFD %d (%s) at offset %d:' % (ctr, IFD_name, i)
|
|
hdr.tags['Exif Offset'] = offset
|
|
hdr.tags['Exif Endian'] = endian
|
|
hdr.tags[IFD_name+' IFDOffset'] = i
|
|
hdr.dump_IFD(i, IFD_name)
|
|
# EXIF IFD
|
|
exif_off=hdr.tags.get(IFD_name+' ExifOffset')
|
|
if exif_off:
|
|
if debug:
|
|
print ' EXIF SubIFD at offset %d:' % exif_off.values[0]
|
|
hdr.dump_IFD(exif_off.values[0], 'EXIF')
|
|
# Interoperability IFD contained in EXIF IFD
|
|
#intr_off=hdr.tags.get('EXIF SubIFD InteroperabilityOffset')
|
|
intr_off=hdr.tags.get('EXIF InteroperabilityOffset')
|
|
if intr_off:
|
|
if debug:
|
|
print ' EXIF Interoperability SubSubIFD at offset %d:' \
|
|
% intr_off.values[0]
|
|
hdr.dump_IFD(intr_off.values[0], 'EXIF Interoperability',
|
|
dict=INTR_TAGS)
|
|
# deal with MakerNote contained in EXIF IFD
|
|
if hdr.tags.has_key('EXIF MakerNote'):
|
|
if debug:
|
|
print ' EXIF MakerNote SubSubIFD at offset %d:' \
|
|
% intr_off.values[0]
|
|
hdr.decode_maker_note()
|
|
# GPS IFD
|
|
gps_off=hdr.tags.get(IFD_name+' GPSInfoOffset')
|
|
if gps_off:
|
|
if debug:
|
|
print ' GPS SubIFD at offset %d:' % gps_off.values[0]
|
|
hdr.dump_IFD(gps_off.values[0], 'GPS', dict=GPS_TAGS)
|
|
ctr+=1
|
|
|
|
|
|
# extract uncompressed TIFF thumbnail
|
|
thumb=hdr.tags.get('Thumbnail Compression')
|
|
if thumb and thumb.printable == 'Uncompressed TIFF':
|
|
hdr.extract_TIFF_thumbnail(thumb_ifd)
|
|
|
|
# JPEG thumbnail (thankfully the JPEG data is stored as a unit)
|
|
thumb_off=hdr.tags.get('Thumbnail JPEGInterchangeFormat')
|
|
if thumb_off:
|
|
file.seek(offset+thumb_off.values[0])
|
|
size=hdr.tags['Thumbnail JPEGInterchangeFormatLength'].values[0]
|
|
hdr.tags['JPEGThumbnail']=file.read(size)
|
|
|
|
# Sometimes in a TIFF file, a JPEG thumbnail is hidden in the MakerNote
|
|
# since it's not allowed in a uncompressed TIFF IFD
|
|
if not hdr.tags.has_key('JPEGThumbnail'):
|
|
thumb_off=hdr.tags.get('MakerNote JPEGThumbnail')
|
|
if thumb_off:
|
|
file.seek(offset+thumb_off.values[0])
|
|
hdr.tags['JPEGThumbnail']=file.read(thumb_off.field_length)
|
|
|
|
if noclose == 0:
|
|
file.close()
|
|
return hdr.tags
|
|
|
|
# library test/debug function (dump given files)
|
|
if __name__ == '__main__':
|
|
import sys
|
|
|
|
if len(sys.argv) < 2:
|
|
print 'Usage: %s files...\n' % sys.argv[0]
|
|
sys.exit(0)
|
|
|
|
for filename in sys.argv[1:]:
|
|
try:
|
|
file=open(filename, 'rb')
|
|
except:
|
|
print filename, 'unreadable'
|
|
print
|
|
continue
|
|
print filename+':'
|
|
# data=process_file(file, 1) # with debug info
|
|
data=process_file(file, 1)
|
|
if not data:
|
|
print 'No EXIF information found'
|
|
continue
|
|
|
|
# x=data.keys()
|
|
# x.sort()
|
|
# for i in x:
|
|
# if i in ('JPEGThumbnail', 'TIFFThumbnail'):
|
|
# continue
|
|
# print ' %s (%s): %s' % \
|
|
# (i, FIELD_TYPES[data[i].field_type][2], data[i].printable)
|
|
# if data.has_key('JPEGThumbnail'):
|
|
# print 'File has JPEG thumbnail'
|
|
# print
|