test_pie/external/exiftool/lib/Image/ExifTool/Exif.pm

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#------------------------------------------------------------------------------
# File: Exif.pm
#
# Description: Read EXIF/TIFF meta information
#
# Revisions: 11/25/2003 - P. Harvey Created
# 02/06/2004 - P. Harvey Moved processing functions from ExifTool
# 03/19/2004 - P. Harvey Check PreviewImage for validity
# 11/11/2004 - P. Harvey Split off maker notes into MakerNotes.pm
# 12/13/2004 - P. Harvey Added AUTOLOAD to load write routines
#
# References: 0) http://www.exif.org/Exif2-2.PDF
# 1) http://partners.adobe.com/asn/developer/pdfs/tn/TIFF6.pdf
# 2) http://www.adobe.com/products/dng/pdfs/dng_spec_1_3_0_0.pdf
# 3) http://www.awaresystems.be/imaging/tiff/tifftags.html
# 4) http://www.remotesensing.org/libtiff/TIFFTechNote2.html
# 5) http://www.exif.org/dcf.PDF
# 6) http://park2.wakwak.com/~tsuruzoh/Computer/Digicams/exif-e.html
# 7) http://www.fine-view.com/jp/lab/doc/ps6ffspecsv2.pdf
# 8) http://www.ozhiker.com/electronics/pjmt/jpeg_info/meta.html
# 9) http://hul.harvard.edu/jhove/tiff-tags.html
# 10) http://partners.adobe.com/public/developer/en/tiff/TIFFPM6.pdf
# 11) Robert Mucke private communication
# 12) http://www.broomscloset.com/closet/photo/exif/TAG2000-22_DIS12234-2.PDF
# 13) http://www.microsoft.com/whdc/xps/wmphoto.mspx
# 14) http://www.asmail.be/msg0054681802.html
# 15) http://crousseau.free.fr/imgfmt_raw.htm
# 16) http://www.cybercom.net/~dcoffin/dcraw/
# 17) http://www.digitalpreservation.gov/formats/content/tiff_tags.shtml
# 18) http://www.asmail.be/msg0055568584.html
# 19) http://libpsd.graphest.com/files/Photoshop%20File%20Formats.pdf
# 20) http://tiki-lounge.com/~raf/tiff/fields.html
# 21) http://community.roxen.com/developers/idocs/rfc/rfc3949.html
# 22) http://tools.ietf.org/html/draft-ietf-fax-tiff-fx-extension1-01
# 23) MetaMorph Stack (STK) Image File Format:
# --> ftp://ftp.meta.moleculardevices.com/support/stack/STK.doc
# 24) http://www.cipa.jp/std/documents/e/DC-008-2012_E.pdf (Exif 2.3)
# 25) Vesa Kivisto private communication (7D)
# 26) Jeremy Brown private communication
# 27) Gregg Lee private communication
# 28) http://wwwimages.adobe.com/www.adobe.com/content/dam/Adobe/en/devnet/cinemadng/pdfs/CinemaDNG_Format_Specification_v1_1.pdf
# 29) http://www.libtiff.org
# 30) http://geotiff.maptools.org/spec/geotiffhome.html
# 31) https://android.googlesource.com/platform/external/dng_sdk/+/refs/heads/master/source/dng_tag_codes.h
# IB) Iliah Borg private communication (LibRaw)
# JD) Jens Duttke private communication
#------------------------------------------------------------------------------
package Image::ExifTool::Exif;
use strict;
use vars qw($VERSION $AUTOLOAD @formatSize @formatName %formatNumber %intFormat
%lightSource %flash %compression %photometricInterpretation %orientation
%subfileType %saveForValidate);
use Image::ExifTool qw(:DataAccess :Utils);
use Image::ExifTool::MakerNotes;
$VERSION = '4.07';
sub ProcessExif($$$);
sub WriteExif($$$);
sub CheckExif($$$);
sub RebuildMakerNotes($$$);
sub EncodeExifText($$);
sub ValidateIFD($;$);
sub ValidateImageData($$$;$);
sub ProcessTiffIFD($$$);
sub PrintParameter($$$);
sub GetOffList($$$$$);
sub PrintLensInfo($);
sub ConvertLensInfo($);
# size limit for loading binary data block into memory
sub BINARY_DATA_LIMIT { return 10 * 1024 * 1024; }
# byte sizes for the various EXIF format types below
@formatSize = (undef,1,1,2,4,8,1,1,2,4,8,4,8,4,2,8,8,8,8);
@formatName = (
undef, 'int8u', 'string', 'int16u',
'int32u', 'rational64u','int8s', 'undef',
'int16s', 'int32s', 'rational64s','float',
'double', 'ifd', 'unicode', 'complex',
'int64u', 'int64s', 'ifd64', # (new BigTIFF formats)
);
# hash to look up EXIF format numbers by name
# (format types are all lower case)
%formatNumber = (
'int8u' => 1, # BYTE
'string' => 2, # ASCII
'int16u' => 3, # SHORT
'int32u' => 4, # LONG
'rational64u' => 5, # RATIONAL
'int8s' => 6, # SBYTE
'undef' => 7, # UNDEFINED
'binary' => 7, # (same as undef)
'int16s' => 8, # SSHORT
'int32s' => 9, # SLONG
'rational64s' => 10, # SRATIONAL
'float' => 11, # FLOAT
'double' => 12, # DOUBLE
'ifd' => 13, # IFD (with int32u format)
'unicode' => 14, # UNICODE [see Note below]
'complex' => 15, # COMPLEX [see Note below]
'int64u' => 16, # LONG8 [BigTIFF]
'int64s' => 17, # SLONG8 [BigTIFF]
'ifd64' => 18, # IFD8 (with int64u format) [BigTIFF]
# Note: unicode and complex types are not yet properly supported by ExifTool.
# These are types which have been observed in the Adobe DNG SDK code, but
# aren't fully supported there either. We know the sizes, but that's about it.
# We don't know if the unicode is null terminated, or the format for complex
# (although I suspect it would be two 4-byte floats, real and imaginary).
);
# lookup for integer format strings
%intFormat = (
'int8u' => 1,
'int16u' => 3,
'int32u' => 4,
'int8s' => 6,
'int16s' => 8,
'int32s' => 9,
'ifd' => 13,
'int64u' => 16,
'int64s' => 17,
'ifd64' => 18,
);
# EXIF LightSource PrintConv values
%lightSource = (
0 => 'Unknown',
1 => 'Daylight',
2 => 'Fluorescent',
3 => 'Tungsten (Incandescent)',
4 => 'Flash',
9 => 'Fine Weather',
10 => 'Cloudy',
11 => 'Shade',
12 => 'Daylight Fluorescent', # (D 5700 - 7100K)
13 => 'Day White Fluorescent', # (N 4600 - 5500K)
14 => 'Cool White Fluorescent', # (W 3800 - 4500K)
15 => 'White Fluorescent', # (WW 3250 - 3800K)
16 => 'Warm White Fluorescent', # (L 2600 - 3250K)
17 => 'Standard Light A',
18 => 'Standard Light B',
19 => 'Standard Light C',
20 => 'D55',
21 => 'D65',
22 => 'D75',
23 => 'D50',
24 => 'ISO Studio Tungsten',
255 => 'Other',
);
# EXIF Flash values
%flash = (
OTHER => sub {
# translate "Off" and "On" when writing
my ($val, $inv) = @_;
return undef unless $inv and $val =~ /^(off|on)$/i;
return lc $val eq 'off' ? 0x00 : 0x01;
},
0x00 => 'No Flash',
0x01 => 'Fired',
0x05 => 'Fired, Return not detected',
0x07 => 'Fired, Return detected',
0x08 => 'On, Did not fire', # not charged up?
0x09 => 'On, Fired',
0x0d => 'On, Return not detected',
0x0f => 'On, Return detected',
0x10 => 'Off, Did not fire',
0x14 => 'Off, Did not fire, Return not detected',
0x18 => 'Auto, Did not fire',
0x19 => 'Auto, Fired',
0x1d => 'Auto, Fired, Return not detected',
0x1f => 'Auto, Fired, Return detected',
0x20 => 'No flash function',
0x30 => 'Off, No flash function',
0x41 => 'Fired, Red-eye reduction',
0x45 => 'Fired, Red-eye reduction, Return not detected',
0x47 => 'Fired, Red-eye reduction, Return detected',
0x49 => 'On, Red-eye reduction',
0x4d => 'On, Red-eye reduction, Return not detected',
0x4f => 'On, Red-eye reduction, Return detected',
0x50 => 'Off, Red-eye reduction',
0x58 => 'Auto, Did not fire, Red-eye reduction',
0x59 => 'Auto, Fired, Red-eye reduction',
0x5d => 'Auto, Fired, Red-eye reduction, Return not detected',
0x5f => 'Auto, Fired, Red-eye reduction, Return detected',
);
# TIFF Compression values
# (values with format "Xxxxx XXX Compressed" are used to identify RAW file types)
%compression = (
1 => 'Uncompressed',
2 => 'CCITT 1D',
3 => 'T4/Group 3 Fax',
4 => 'T6/Group 4 Fax',
5 => 'LZW',
6 => 'JPEG (old-style)', #3
7 => 'JPEG', #4
8 => 'Adobe Deflate', #3
9 => 'JBIG B&W', #3
10 => 'JBIG Color', #3
99 => 'JPEG', #16
262 => 'Kodak 262', #16
32766 => 'Next', #3
32767 => 'Sony ARW Compressed', #16
32769 => 'Packed RAW', #PH (used by Epson, Nikon, Samsung)
32770 => 'Samsung SRW Compressed', #PH
32771 => 'CCIRLEW', #3
32772 => 'Samsung SRW Compressed 2', #PH (NX3000,NXmini)
32773 => 'PackBits',
32809 => 'Thunderscan', #3
32867 => 'Kodak KDC Compressed', #PH
32895 => 'IT8CTPAD', #3
32896 => 'IT8LW', #3
32897 => 'IT8MP', #3
32898 => 'IT8BL', #3
32908 => 'PixarFilm', #3
32909 => 'PixarLog', #3
# 32910,32911 - Pixar reserved
32946 => 'Deflate', #3
32947 => 'DCS', #3
33003 => 'Aperio JPEG 2000 YCbCr', #https://openslide.org/formats/aperio/
33005 => 'Aperio JPEG 2000 RGB', #https://openslide.org/formats/aperio/
34661 => 'JBIG', #3
34676 => 'SGILog', #3
34677 => 'SGILog24', #3
34712 => 'JPEG 2000', #3
34713 => 'Nikon NEF Compressed', #PH
34715 => 'JBIG2 TIFF FX', #20
34718 => 'Microsoft Document Imaging (MDI) Binary Level Codec', #18
34719 => 'Microsoft Document Imaging (MDI) Progressive Transform Codec', #18
34720 => 'Microsoft Document Imaging (MDI) Vector', #18
34887 => 'ESRI Lerc', #LibTiff
# 34888,34889 - ESRI reserved
34892 => 'Lossy JPEG', # (DNG 1.4)
34925 => 'LZMA2', #LibTiff
34926 => 'Zstd', #LibTiff
34927 => 'WebP', #LibTiff
34933 => 'PNG', # (TIFF mail list)
34934 => 'JPEG XR', # (TIFF mail list)
65000 => 'Kodak DCR Compressed', #PH
65535 => 'Pentax PEF Compressed', #Jens
);
%photometricInterpretation = (
0 => 'WhiteIsZero',
1 => 'BlackIsZero',
2 => 'RGB',
3 => 'RGB Palette',
4 => 'Transparency Mask',
5 => 'CMYK',
6 => 'YCbCr',
8 => 'CIELab',
9 => 'ICCLab', #3
10 => 'ITULab', #3
32803 => 'Color Filter Array', #2
32844 => 'Pixar LogL', #3
32845 => 'Pixar LogLuv', #3
32892 => 'Sequential Color Filter', #JR (Sony ARQ)
34892 => 'Linear Raw', #2
);
%orientation = (
1 => 'Horizontal (normal)',
2 => 'Mirror horizontal',
3 => 'Rotate 180',
4 => 'Mirror vertical',
5 => 'Mirror horizontal and rotate 270 CW',
6 => 'Rotate 90 CW',
7 => 'Mirror horizontal and rotate 90 CW',
8 => 'Rotate 270 CW',
);
%subfileType = (
0 => 'Full-resolution Image',
1 => 'Reduced-resolution image',
2 => 'Single page of multi-page image',
3 => 'Single page of multi-page reduced-resolution image',
4 => 'Transparency mask',
5 => 'Transparency mask of reduced-resolution image',
6 => 'Transparency mask of multi-page image',
7 => 'Transparency mask of reduced-resolution multi-page image',
0x10001 => 'Alternate reduced-resolution image', # (DNG 1.2)
0xffffffff => 'invalid', #(found in E5700 NEF's)
BITMASK => {
0 => 'Reduced resolution',
1 => 'Single page',
2 => 'Transparency mask',
3 => 'TIFF/IT final page', #20
4 => 'TIFF-FX mixed raster content', #20
},
);
# PrintConv for parameter tags
%Image::ExifTool::Exif::printParameter = (
PrintConv => {
0 => 'Normal',
OTHER => \&Image::ExifTool::Exif::PrintParameter,
},
);
# convert DNG UTF-8 string values (may be string or int8u format)
my %utf8StringConv = (
Writable => 'string',
Format => 'string',
ValueConv => '$self->Decode($val, "UTF8")',
ValueConvInv => '$self->Encode($val,"UTF8")',
);
# ValueConv that makes long values binary type
my %longBin = (
ValueConv => 'length($val) > 64 ? \$val : $val',
ValueConvInv => '$val',
);
# PrintConv for SampleFormat (0x153)
my %sampleFormat = (
1 => 'Unsigned', # unsigned integer
2 => 'Signed', # two's complement signed integer
3 => 'Float', # IEEE floating point
4 => 'Undefined',
5 => 'Complex int', # complex integer (ref 3)
6 => 'Complex float', # complex IEEE floating point (ref 3)
);
# save the values of these tags for additional validation checks
%saveForValidate = (
0x100 => 1, # ImageWidth
0x101 => 1, # ImageHeight
0x102 => 1, # BitsPerSample
0x103 => 1, # Compression
0x115 => 1, # SamplesPerPixel
);
# main EXIF tag table
%Image::ExifTool::Exif::Main = (
GROUPS => { 0 => 'EXIF', 1 => 'IFD0', 2 => 'Image'},
WRITE_PROC => \&WriteExif,
CHECK_PROC => \&CheckExif,
WRITE_GROUP => 'ExifIFD', # default write group
SET_GROUP1 => 1, # set group1 name to directory name for all tags in table
0x1 => {
Name => 'InteropIndex',
Description => 'Interoperability Index',
Protected => 1,
Writable => 'string',
WriteGroup => 'InteropIFD',
PrintConv => {
R98 => 'R98 - DCF basic file (sRGB)',
R03 => 'R03 - DCF option file (Adobe RGB)',
THM => 'THM - DCF thumbnail file',
},
},
0x2 => { #5
Name => 'InteropVersion',
Description => 'Interoperability Version',
Protected => 1,
Writable => 'undef',
Mandatory => 1,
WriteGroup => 'InteropIFD',
RawConv => '$val=~s/\0+$//; $val', # (some idiots add null terminators)
},
0x0b => { #PH
Name => 'ProcessingSoftware',
Writable => 'string',
WriteGroup => 'IFD0',
Notes => 'used by ACD Systems Digital Imaging',
},
0xfe => {
Name => 'SubfileType',
Notes => 'called NewSubfileType by the TIFF specification',
Protected => 1,
Writable => 'int32u',
WriteGroup => 'IFD0',
# set priority directory if this is the full resolution image
DataMember => 'SubfileType',
RawConv => '$self->SetPriorityDir() if $val eq "0"; $$self{SubfileType} = $val',
PrintConv => \%subfileType,
},
0xff => {
Name => 'OldSubfileType',
Notes => 'called SubfileType by the TIFF specification',
Protected => 1,
Writable => 'int16u',
WriteGroup => 'IFD0',
# set priority directory if this is the full resolution image
RawConv => '$self->SetPriorityDir() if $val eq "1"; $val',
PrintConv => {
1 => 'Full-resolution image',
2 => 'Reduced-resolution image',
3 => 'Single page of multi-page image',
},
},
0x100 => {
Name => 'ImageWidth',
# even though Group 1 is set dynamically we need to register IFD1 once
# so it will show up in the group lists
Groups => { 1 => 'IFD1' },
Protected => 1,
Writable => 'int32u',
WriteGroup => 'IFD0',
# Note: priority 0 tags automatically have their priority increased for the
# priority direcory (the directory with a SubfileType of "Full-resolution image")
Priority => 0,
},
0x101 => {
Name => 'ImageHeight',
Notes => 'called ImageLength by the EXIF spec.',
Protected => 1,
Writable => 'int32u',
WriteGroup => 'IFD0',
Priority => 0,
},
0x102 => {
Name => 'BitsPerSample',
Protected => 1,
Writable => 'int16u',
WriteGroup => 'IFD0',
Count => -1, # can be 1 or 3: -1 means 'variable'
Priority => 0,
},
0x103 => {
Name => 'Compression',
Protected => 1,
Writable => 'int16u',
WriteGroup => 'IFD0',
Mandatory => 1,
DataMember => 'Compression',
SeparateTable => 'Compression',
RawConv => q{
Image::ExifTool::Exif::IdentifyRawFile($self, $val);
return $$self{Compression} = $val;
},
PrintConv => \%compression,
Priority => 0,
},
0x106 => {
Name => 'PhotometricInterpretation',
Protected => 1,
Writable => 'int16u',
WriteGroup => 'IFD0',
PrintConv => \%photometricInterpretation,
Priority => 0,
},
0x107 => {
Name => 'Thresholding',
Protected => 1,
Writable => 'int16u',
WriteGroup => 'IFD0',
PrintConv => {
1 => 'No dithering or halftoning',
2 => 'Ordered dither or halftone',
3 => 'Randomized dither',
},
},
0x108 => {
Name => 'CellWidth',
Protected => 1,
Writable => 'int16u',
WriteGroup => 'IFD0',
},
0x109 => {
Name => 'CellLength',
Protected => 1,
Writable => 'int16u',
WriteGroup => 'IFD0',
},
0x10a => {
Name => 'FillOrder',
Protected => 1,
Writable => 'int16u',
WriteGroup => 'IFD0',
PrintConv => {
1 => 'Normal',
2 => 'Reversed',
},
},
0x10d => {
Name => 'DocumentName',
Writable => 'string',
WriteGroup => 'IFD0',
},
0x10e => {
Name => 'ImageDescription',
Writable => 'string',
WriteGroup => 'IFD0',
Priority => 0,
},
0x10f => {
Name => 'Make',
Groups => { 2 => 'Camera' },
Writable => 'string',
WriteGroup => 'IFD0',
DataMember => 'Make',
# remove trailing blanks and save as an ExifTool member variable
RawConv => '$val =~ s/\s+$//; $$self{Make} = $val',
# NOTE: trailing "blanks" (spaces) are removed from all EXIF tags which
# may be "unknown" (filled with spaces) according to the EXIF spec.
# This allows conditional replacement with "exiftool -TAG-= -TAG=VALUE".
# - also removed are any other trailing whitespace characters
},
0x110 => {
Name => 'Model',
Description => 'Camera Model Name',
Groups => { 2 => 'Camera' },
Writable => 'string',
WriteGroup => 'IFD0',
DataMember => 'Model',
# remove trailing blanks and save as an ExifTool member variable
RawConv => '$val =~ s/\s+$//; $$self{Model} = $val',
},
0x111 => [
{
Condition => q[
$$self{TIFF_TYPE} eq 'MRW' and $$self{DIR_NAME} eq 'IFD0' and
$$self{Model} =~ /^DiMAGE A200/
],
Name => 'StripOffsets',
IsOffset => 1,
OffsetPair => 0x117, # point to associated byte counts
# A200 stores this information in the wrong byte order!!
ValueConv => '$val=join(" ",unpack("N*",pack("V*",split(" ",$val))));\$val',
ByteOrder => 'LittleEndian',
},
{
# (APP1 IFD2 is for Leica JPEG preview)
Condition => q[
not ($$self{TIFF_TYPE} eq 'CR2' and $$self{DIR_NAME} eq 'IFD0') and
not ($$self{TIFF_TYPE} eq 'DNG' and $$self{Compression} eq '7' and $$self{SubfileType} ne '0') and
not ($$self{TIFF_TYPE} eq 'APP1' and $$self{DIR_NAME} eq 'IFD2')
],
Name => 'StripOffsets',
IsOffset => 1,
OffsetPair => 0x117, # point to associated byte counts
ValueConv => 'length($val) > 32 ? \$val : $val',
},
{
# PreviewImageStart in IFD0 of CR2 images
Condition => '$$self{TIFF_TYPE} eq "CR2"',
Name => 'PreviewImageStart',
IsOffset => 1,
OffsetPair => 0x117,
Notes => q{
called StripOffsets in most locations, but it is PreviewImageStart in IFD0
of CR2 images and various IFD's of DNG images except for SubIFD2 where it is
JpgFromRawStart
},
DataTag => 'PreviewImage',
Writable => 'int32u',
WriteGroup => 'IFD0',
Protected => 2,
Permanent => 1,
},
{
# PreviewImageStart in various IFD's of DNG images except SubIFD2
Condition => '$$self{DIR_NAME} ne "SubIFD2"',
Name => 'PreviewImageStart',
IsOffset => 1,
OffsetPair => 0x117,
DataTag => 'PreviewImage',
Writable => 'int32u',
WriteGroup => 'All', # (writes to specific group of associated Composite tag)
Protected => 2,
Permanent => 1,
},
{
# JpgFromRawStart in various IFD's of DNG images except SubIFD2
Name => 'JpgFromRawStart',
IsOffset => 1,
OffsetPair => 0x117,
DataTag => 'JpgFromRaw',
Writable => 'int32u',
WriteGroup => 'SubIFD2',
Protected => 2,
Permanent => 1,
},
],
0x112 => {
Name => 'Orientation',
Writable => 'int16u',
WriteGroup => 'IFD0',
PrintConv => \%orientation,
Priority => 0, # so PRIORITY_DIR takes precedence
},
0x115 => {
Name => 'SamplesPerPixel',
Protected => 1,
Writable => 'int16u',
WriteGroup => 'IFD0',
Priority => 0,
},
0x116 => {
Name => 'RowsPerStrip',
Protected => 1,
Writable => 'int32u',
WriteGroup => 'IFD0',
Priority => 0,
},
0x117 => [
{
Condition => q[
$$self{TIFF_TYPE} eq 'MRW' and $$self{DIR_NAME} eq 'IFD0' and
$$self{Model} =~ /^DiMAGE A200/
],
Name => 'StripByteCounts',
OffsetPair => 0x111, # point to associated offset
# A200 stores this information in the wrong byte order!!
ValueConv => '$val=join(" ",unpack("N*",pack("V*",split(" ",$val))));\$val',
ByteOrder => 'LittleEndian',
},
{
# (APP1 IFD2 is for Leica JPEG preview)
Condition => q[
not ($$self{TIFF_TYPE} eq 'CR2' and $$self{DIR_NAME} eq 'IFD0') and
not ($$self{TIFF_TYPE} eq 'DNG' and $$self{Compression} eq '7' and $$self{SubfileType} ne '0') and
not ($$self{TIFF_TYPE} eq 'APP1' and $$self{DIR_NAME} eq 'IFD2')
],
Name => 'StripByteCounts',
OffsetPair => 0x111, # point to associated offset
ValueConv => 'length($val) > 32 ? \$val : $val',
},
{
# PreviewImageLength in IFD0 of CR2 images
Condition => '$$self{TIFF_TYPE} eq "CR2"',
Name => 'PreviewImageLength',
OffsetPair => 0x111,
Notes => q{
called StripByteCounts in most locations, but it is PreviewImageLength in
IFD0 of CR2 images and various IFD's of DNG images except for SubIFD2 where
it is JpgFromRawLength
},
DataTag => 'PreviewImage',
Writable => 'int32u',
WriteGroup => 'IFD0',
Protected => 2,
Permanent => 1,
},
{
# PreviewImageLength in various IFD's of DNG images except SubIFD2
Condition => '$$self{DIR_NAME} ne "SubIFD2"',
Name => 'PreviewImageLength',
OffsetPair => 0x111,
DataTag => 'PreviewImage',
Writable => 'int32u',
WriteGroup => 'All', # (writes to specific group of associated Composite tag)
Protected => 2,
Permanent => 1,
},
{
# JpgFromRawLength in SubIFD2 of DNG images
Name => 'JpgFromRawLength',
OffsetPair => 0x111,
DataTag => 'JpgFromRaw',
Writable => 'int32u',
WriteGroup => 'SubIFD2',
Protected => 2,
Permanent => 1,
},
],
0x118 => {
Name => 'MinSampleValue',
Writable => 'int16u',
WriteGroup => 'IFD0',
},
0x119 => {
Name => 'MaxSampleValue',
Writable => 'int16u',
WriteGroup => 'IFD0',
},
0x11a => {
Name => 'XResolution',
Writable => 'rational64u',
WriteGroup => 'IFD0',
Mandatory => 1,
Priority => 0, # so PRIORITY_DIR takes precedence
},
0x11b => {
Name => 'YResolution',
Writable => 'rational64u',
WriteGroup => 'IFD0',
Mandatory => 1,
Priority => 0,
},
0x11c => {
Name => 'PlanarConfiguration',
Protected => 1,
Writable => 'int16u',
WriteGroup => 'IFD0',
PrintConv => {
1 => 'Chunky',
2 => 'Planar',
},
Priority => 0,
},
0x11d => {
Name => 'PageName',
Writable => 'string',
WriteGroup => 'IFD0',
},
0x11e => {
Name => 'XPosition',
Writable => 'rational64u',
WriteGroup => 'IFD0',
},
0x11f => {
Name => 'YPosition',
Writable => 'rational64u',
WriteGroup => 'IFD0',
},
# FreeOffsets/FreeByteCounts are used by Ricoh for RMETA information
# in TIFF images (not yet supported)
0x120 => {
Name => 'FreeOffsets',
IsOffset => 1,
OffsetPair => 0x121,
ValueConv => 'length($val) > 32 ? \$val : $val',
},
0x121 => {
Name => 'FreeByteCounts',
OffsetPair => 0x120,
ValueConv => 'length($val) > 32 ? \$val : $val',
},
0x122 => {
Name => 'GrayResponseUnit',
Writable => 'int16u',
WriteGroup => 'IFD0',
PrintConv => { #3
1 => 0.1,
2 => 0.001,
3 => 0.0001,
4 => 0.00001,
5 => 0.000001,
},
},
0x123 => {
Name => 'GrayResponseCurve',
Binary => 1,
},
0x124 => {
Name => 'T4Options',
PrintConv => { BITMASK => {
0 => '2-Dimensional encoding',
1 => 'Uncompressed',
2 => 'Fill bits added',
} }, #3
},
0x125 => {
Name => 'T6Options',
PrintConv => { BITMASK => {
1 => 'Uncompressed',
} }, #3
},
0x128 => {
Name => 'ResolutionUnit',
Notes => 'the value 1 is not standard EXIF',
Writable => 'int16u',
WriteGroup => 'IFD0',
Mandatory => 1,
PrintConv => {
1 => 'None',
2 => 'inches',
3 => 'cm',
},
Priority => 0,
},
0x129 => {
Name => 'PageNumber',
Writable => 'int16u',
WriteGroup => 'IFD0',
Count => 2,
},
0x12c => 'ColorResponseUnit', #9
0x12d => {
Name => 'TransferFunction',
Protected => 1,
Writable => 'int16u',
WriteGroup => 'IFD0',
Count => 768,
Binary => 1,
},
0x131 => {
Name => 'Software',
Writable => 'string',
WriteGroup => 'IFD0',
RawConv => '$val =~ s/\s+$//; $val', # trim trailing blanks
},
0x132 => {
Name => 'ModifyDate',
Groups => { 2 => 'Time' },
Notes => 'called DateTime by the EXIF spec.',
Writable => 'string',
Shift => 'Time',
WriteGroup => 'IFD0',
Validate => 'ValidateExifDate($val)',
PrintConv => '$self->ConvertDateTime($val)',
PrintConvInv => '$self->InverseDateTime($val,0)',
},
0x13b => {
Name => 'Artist',
Groups => { 2 => 'Author' },
Notes => 'becomes a list-type tag when the MWG module is loaded',
Writable => 'string',
WriteGroup => 'IFD0',
RawConv => '$val =~ s/\s+$//; $val', # trim trailing blanks
},
0x13c => {
Name => 'HostComputer',
Writable => 'string',
WriteGroup => 'IFD0',
},
0x13d => {
Name => 'Predictor',
Protected => 1,
Writable => 'int16u',
WriteGroup => 'IFD0',
PrintConv => {
1 => 'None',
2 => 'Horizontal differencing',
},
},
0x13e => {
Name => 'WhitePoint',
Groups => { 2 => 'Camera' },
Writable => 'rational64u',
WriteGroup => 'IFD0',
Count => 2,
},
0x13f => {
Name => 'PrimaryChromaticities',
Writable => 'rational64u',
WriteGroup => 'IFD0',
Count => 6,
Priority => 0,
},
0x140 => {
Name => 'ColorMap',
Format => 'binary',
Binary => 1,
},
0x141 => {
Name => 'HalftoneHints',
Writable => 'int16u',
WriteGroup => 'IFD0',
Count => 2,
},
0x142 => {
Name => 'TileWidth',
Protected => 1,
Writable => 'int32u',
WriteGroup => 'IFD0',
},
0x143 => {
Name => 'TileLength',
Protected => 1,
Writable => 'int32u',
WriteGroup => 'IFD0',
},
0x144 => {
Name => 'TileOffsets',
IsOffset => 1,
OffsetPair => 0x145,
ValueConv => 'length($val) > 32 ? \$val : $val',
},
0x145 => {
Name => 'TileByteCounts',
OffsetPair => 0x144,
ValueConv => 'length($val) > 32 ? \$val : $val',
},
0x146 => 'BadFaxLines', #3
0x147 => { #3
Name => 'CleanFaxData',
PrintConv => {
0 => 'Clean',
1 => 'Regenerated',
2 => 'Unclean',
},
},
0x148 => 'ConsecutiveBadFaxLines', #3
0x14a => [
{
Name => 'SubIFD',
# use this opportunity to identify an ARW image, and if so we
# must decide if this is a SubIFD or the A100 raw data
# (use SubfileType, Compression and FILE_TYPE to identify ARW/SR2,
# then call SetARW to finish the job)
Condition => q{
$$self{DIR_NAME} ne 'IFD0' or $$self{FILE_TYPE} ne 'TIFF' or
$$self{Make} !~ /^SONY/ or
not $$self{SubfileType} or $$self{SubfileType} != 1 or
not $$self{Compression} or $$self{Compression} != 6 or
not require Image::ExifTool::Sony or
Image::ExifTool::Sony::SetARW($self, $valPt)
},
Groups => { 1 => 'SubIFD' },
Flags => 'SubIFD',
SubDirectory => {
Start => '$val',
MaxSubdirs => 10, # (have seen 5 in a DNG 1.4 image)
},
},
{ #16
Name => 'A100DataOffset',
Notes => 'the data offset in original Sony DSLR-A100 ARW images',
DataMember => 'A100DataOffset',
RawConv => '$$self{A100DataOffset} = $val',
WriteGroup => 'IFD0', # (only for Validate)
IsOffset => 1,
Protected => 2,
},
],
0x14c => {
Name => 'InkSet',
Writable => 'int16u',
WriteGroup => 'IFD0',
PrintConv => { #3
1 => 'CMYK',
2 => 'Not CMYK',
},
},
0x14d => 'InkNames', #3
0x14e => 'NumberofInks', #3
0x150 => 'DotRange',
0x151 => {
Name => 'TargetPrinter',
Writable => 'string',
WriteGroup => 'IFD0',
},
0x152 => {
Name => 'ExtraSamples',
PrintConv => { #20
0 => 'Unspecified',
1 => 'Associated Alpha',
2 => 'Unassociated Alpha',
},
},
0x153 => {
Name => 'SampleFormat',
Notes => 'SamplesPerPixel values',
WriteGroup => 'SubIFD', # (only for Validate)
PrintConvColumns => 2,
PrintConv => [ \%sampleFormat, \%sampleFormat, \%sampleFormat, \%sampleFormat ],
},
0x154 => 'SMinSampleValue',
0x155 => 'SMaxSampleValue',
0x156 => 'TransferRange',
0x157 => 'ClipPath', #3
0x158 => 'XClipPathUnits', #3
0x159 => 'YClipPathUnits', #3
0x15a => { #3
Name => 'Indexed',
PrintConv => { 0 => 'Not indexed', 1 => 'Indexed' },
},
0x15b => {
Name => 'JPEGTables',
Binary => 1,
},
0x15f => { #10
Name => 'OPIProxy',
PrintConv => {
0 => 'Higher resolution image does not exist',
1 => 'Higher resolution image exists',
},
},
# 0x181 => 'Decode', #20 (typo! - should be 0x1b1, ref 21)
# 0x182 => 'DefaultImageColor', #20 (typo! - should be 0x1b2, ref 21)
0x190 => { #3
Name => 'GlobalParametersIFD',
Groups => { 1 => 'GlobParamIFD' },
Flags => 'SubIFD',
SubDirectory => {
DirName => 'GlobParamIFD',
Start => '$val',
MaxSubdirs => 1,
},
},
0x191 => { #3
Name => 'ProfileType',
PrintConv => { 0 => 'Unspecified', 1 => 'Group 3 FAX' },
},
0x192 => { #3
Name => 'FaxProfile',
PrintConv => {
0 => 'Unknown',
1 => 'Minimal B&W lossless, S',
2 => 'Extended B&W lossless, F',
3 => 'Lossless JBIG B&W, J',
4 => 'Lossy color and grayscale, C',
5 => 'Lossless color and grayscale, L',
6 => 'Mixed raster content, M',
7 => 'Profile T', #20
255 => 'Multi Profiles', #20
},
},
0x193 => { #3
Name => 'CodingMethods',
PrintConv => { BITMASK => {
0 => 'Unspecified compression',
1 => 'Modified Huffman',
2 => 'Modified Read',
3 => 'Modified MR',
4 => 'JBIG',
5 => 'Baseline JPEG',
6 => 'JBIG color',
} },
},
0x194 => 'VersionYear', #3
0x195 => 'ModeNumber', #3
0x1b1 => 'Decode', #3
0x1b2 => 'DefaultImageColor', #3 (changed to ImageBaseColor, ref 21)
0x1b3 => 'T82Options', #20
0x1b5 => { #19
Name => 'JPEGTables',
Binary => 1,
},
0x200 => {
Name => 'JPEGProc',
PrintConv => {
1 => 'Baseline',
14 => 'Lossless',
},
},
0x201 => [
{
Name => 'ThumbnailOffset',
Notes => q{
ThumbnailOffset in IFD1 of JPEG and some TIFF-based images, IFD0 of MRW
images and AVI and MOV videos, and the SubIFD in IFD1 of SRW images;
PreviewImageStart in MakerNotes and IFD0 of ARW and SR2 images;
JpgFromRawStart in SubIFD of NEF images and IFD2 of PEF images; and
OtherImageStart in everything else
},
# thumbnail is found in IFD1 of JPEG and TIFF images, and
# IFD0 of EXIF information in FujiFilm AVI (RIFF) and MOV videos
Condition => q{
# recognize NRW file from a JPEG-compressed thumbnail in IFD0
if ($$self{TIFF_TYPE} eq 'NEF' and $$self{DIR_NAME} eq 'IFD0' and $$self{Compression} == 6) {
$self->OverrideFileType($$self{TIFF_TYPE} = 'NRW');
}
$$self{DIR_NAME} eq 'IFD1' or
($$self{DIR_NAME} eq 'IFD0' and $$self{FILE_TYPE} =~ /^(RIFF|MOV)$/)
},
IsOffset => 1,
OffsetPair => 0x202,
DataTag => 'ThumbnailImage',
Writable => 'int32u',
WriteGroup => 'IFD1',
# according to the EXIF spec. a JPEG-compressed thumbnail image may not
# be stored in a TIFF file, but these TIFF-based RAW image formats
# use IFD1 for a JPEG-compressed thumbnail: CR2, ARW, SR2 and PEF.
# (SRF also stores a JPEG image in IFD1, but it is actually a preview
# and we don't yet write SRF anyway)
WriteCondition => q{
$$self{FILE_TYPE} ne "TIFF" or
$$self{TIFF_TYPE} =~ /^(CR2|ARW|SR2|PEF)$/
},
Protected => 2,
},
{
Name => 'ThumbnailOffset',
# thumbnail in IFD0 of MRW images (Minolta A200)
# and IFD0 of NRW images (Nikon Coolpix P6000,P7000,P7100)
Condition => '$$self{DIR_NAME} eq "IFD0" and $$self{TIFF_TYPE} =~ /^(MRW|NRW)$/',
IsOffset => 1,
OffsetPair => 0x202,
# A200 uses the wrong base offset for this pointer!!
WrongBase => '$$self{Model} =~ /^DiMAGE A200/ ? $$self{MRW_WrongBase} : undef',
DataTag => 'ThumbnailImage',
Writable => 'int32u',
WriteGroup => 'IFD0',
Protected => 2,
Permanent => 1,
},
{
Name => 'ThumbnailOffset',
# in SubIFD of IFD1 in Samsung SRW images
Condition => q{
$$self{TIFF_TYPE} eq 'SRW' and $$self{DIR_NAME} eq 'SubIFD' and
$$self{PATH}[-2] eq 'IFD1'
},
IsOffset => 1,
OffsetPair => 0x202,
DataTag => 'ThumbnailImage',
Writable => 'int32u',
WriteGroup => 'SubIFD',
Protected => 2,
Permanent => 1,
},
{
Name => 'PreviewImageStart',
Condition => '$$self{DIR_NAME} eq "MakerNotes"',
IsOffset => 1,
OffsetPair => 0x202,
DataTag => 'PreviewImage',
Writable => 'int32u',
WriteGroup => 'MakerNotes',
Protected => 2,
Permanent => 1,
},
{
Name => 'PreviewImageStart',
# PreviewImage in IFD0 of ARW and SR2 files for all models
Condition => '$$self{DIR_NAME} eq "IFD0" and $$self{TIFF_TYPE} =~ /^(ARW|SR2)$/',
IsOffset => 1,
OffsetPair => 0x202,
DataTag => 'PreviewImage',
Writable => 'int32u',
WriteGroup => 'IFD0',
Protected => 2,
Permanent => 1,
},
{
Name => 'JpgFromRawStart',
Condition => '$$self{DIR_NAME} eq "SubIFD"',
IsOffset => 1,
OffsetPair => 0x202,
DataTag => 'JpgFromRaw',
Writable => 'int32u',
WriteGroup => 'SubIFD',
# JpgFromRaw is in SubIFD of NEF, NRW and SRW files
Protected => 2,
Permanent => 1,
},
{
Name => 'JpgFromRawStart',
Condition => '$$self{DIR_NAME} eq "IFD2"',
IsOffset => 1,
OffsetPair => 0x202,
DataTag => 'JpgFromRaw',
Writable => 'int32u',
WriteGroup => 'IFD2',
# JpgFromRaw is in IFD2 of PEF files
Protected => 2,
Permanent => 1,
},
{
Name => 'OtherImageStart',
Condition => '$$self{DIR_NAME} eq "SubIFD1"',
IsOffset => 1,
OffsetPair => 0x202,
DataTag => 'OtherImage',
Writable => 'int32u',
WriteGroup => 'SubIFD1',
Protected => 2,
Permanent => 1,
},
{
Name => 'OtherImageStart',
Condition => '$$self{DIR_NAME} eq "SubIFD2"',
IsOffset => 1,
OffsetPair => 0x202,
DataTag => 'OtherImage',
Writable => 'int32u',
WriteGroup => 'SubIFD2',
Protected => 2,
Permanent => 1,
},
{
Name => 'OtherImageStart',
IsOffset => 1,
OffsetPair => 0x202,
},
],
0x202 => [
{
Name => 'ThumbnailLength',
Notes => q{
ThumbnailLength in IFD1 of JPEG and some TIFF-based images, IFD0 of MRW
images and AVI and MOV videos, and the SubIFD in IFD1 of SRW images;
PreviewImageLength in MakerNotes and IFD0 of ARW and SR2 images;
JpgFromRawLength in SubIFD of NEF images, and IFD2 of PEF images; and
OtherImageLength in everything else
},
Condition => q{
$$self{DIR_NAME} eq 'IFD1' or
($$self{DIR_NAME} eq 'IFD0' and $$self{FILE_TYPE} =~ /^(RIFF|MOV)$/)
},
OffsetPair => 0x201,
DataTag => 'ThumbnailImage',
Writable => 'int32u',
WriteGroup => 'IFD1',
WriteCondition => q{
$$self{FILE_TYPE} ne "TIFF" or
$$self{TIFF_TYPE} =~ /^(CR2|ARW|SR2|PEF)$/
},
Protected => 2,
},
{
Name => 'ThumbnailLength',
# thumbnail in IFD0 of MRW images (Minolta A200)
# and IFD0 of NRW images (Nikon Coolpix P6000,P7000,P7100)
Condition => '$$self{DIR_NAME} eq "IFD0" and $$self{TIFF_TYPE} =~ /^(MRW|NRW)$/',
OffsetPair => 0x201,
DataTag => 'ThumbnailImage',
Writable => 'int32u',
WriteGroup => 'IFD0',
Protected => 2,
Permanent => 1,
},
{
Name => 'ThumbnailLength',
# in SubIFD of IFD1 in Samsung SRW images
Condition => q{
$$self{TIFF_TYPE} eq 'SRW' and $$self{DIR_NAME} eq 'SubIFD' and
$$self{PATH}[-2] eq 'IFD1'
},
OffsetPair => 0x201,
DataTag => 'ThumbnailImage',
Writable => 'int32u',
WriteGroup => 'SubIFD',
Protected => 2,
Permanent => 1,
},
{
Name => 'PreviewImageLength',
Condition => '$$self{DIR_NAME} eq "MakerNotes"',
OffsetPair => 0x201,
DataTag => 'PreviewImage',
Writable => 'int32u',
WriteGroup => 'MakerNotes',
Protected => 2,
Permanent => 1,
},
{
Name => 'PreviewImageLength',
# PreviewImage in IFD0 of ARW and SR2 files for all models
Condition => '$$self{DIR_NAME} eq "IFD0" and $$self{TIFF_TYPE} =~ /^(ARW|SR2)$/',
OffsetPair => 0x201,
DataTag => 'PreviewImage',
Writable => 'int32u',
WriteGroup => 'IFD0',
Protected => 2,
Permanent => 1,
},
{
Name => 'JpgFromRawLength',
Condition => '$$self{DIR_NAME} eq "SubIFD"',
OffsetPair => 0x201,
DataTag => 'JpgFromRaw',
Writable => 'int32u',
WriteGroup => 'SubIFD',
Protected => 2,
Permanent => 1,
},
{
Name => 'JpgFromRawLength',
Condition => '$$self{DIR_NAME} eq "IFD2"',
OffsetPair => 0x201,
DataTag => 'JpgFromRaw',
Writable => 'int32u',
WriteGroup => 'IFD2',
Protected => 2,
Permanent => 1,
},
{
Name => 'OtherImageLength',
Condition => '$$self{DIR_NAME} eq "SubIFD1"',
OffsetPair => 0x201,
DataTag => 'OtherImage',
Writable => 'int32u',
WriteGroup => 'SubIFD1',
Protected => 2,
Permanent => 1,
},
{
Name => 'OtherImageLength',
Condition => '$$self{DIR_NAME} eq "SubIFD2"',
OffsetPair => 0x201,
DataTag => 'OtherImage',
Writable => 'int32u',
WriteGroup => 'SubIFD2',
Protected => 2,
Permanent => 1,
},
{
Name => 'OtherImageLength',
OffsetPair => 0x201,
},
],
0x203 => 'JPEGRestartInterval',
0x205 => 'JPEGLosslessPredictors',
0x206 => 'JPEGPointTransforms',
0x207 => {
Name => 'JPEGQTables',
IsOffset => 1,
# this tag is not supported for writing, so define an
# invalid offset pair to cause a "No size tag" error to be
# generated if we try to write a file containing this tag
OffsetPair => -1,
},
0x208 => {
Name => 'JPEGDCTables',
IsOffset => 1,
OffsetPair => -1, # (see comment for JPEGQTables)
},
0x209 => {
Name => 'JPEGACTables',
IsOffset => 1,
OffsetPair => -1, # (see comment for JPEGQTables)
},
0x211 => {
Name => 'YCbCrCoefficients',
Protected => 1,
Writable => 'rational64u',
WriteGroup => 'IFD0',
Count => 3,
Priority => 0,
},
0x212 => {
Name => 'YCbCrSubSampling',
Protected => 1,
Writable => 'int16u',
WriteGroup => 'IFD0',
Count => 2,
PrintConvColumns => 2,
PrintConv => \%Image::ExifTool::JPEG::yCbCrSubSampling,
Priority => 0,
},
0x213 => {
Name => 'YCbCrPositioning',
Protected => 1,
Writable => 'int16u',
WriteGroup => 'IFD0',
Mandatory => 1,
PrintConv => {
1 => 'Centered',
2 => 'Co-sited',
},
Priority => 0,
},
0x214 => {
Name => 'ReferenceBlackWhite',
Writable => 'rational64u',
WriteGroup => 'IFD0',
Count => 6,
Priority => 0,
},
0x22f => 'StripRowCounts',
0x2bc => {
Name => 'ApplicationNotes', # (writable directory!)
Format => 'undef',
Writable => 'int8u',
WriteGroup => 'IFD0', # (only for Validate)
Flags => [ 'Binary', 'Protected' ],
# this could be an XMP block
SubDirectory => {
DirName => 'XMP',
TagTable => 'Image::ExifTool::XMP::Main',
},
},
0x3e7 => 'USPTOMiscellaneous', #20
0x1000 => { #5
Name => 'RelatedImageFileFormat',
Protected => 1,
Writable => 'string',
WriteGroup => 'InteropIFD',
},
0x1001 => { #5
Name => 'RelatedImageWidth',
Protected => 1,
Writable => 'int16u',
WriteGroup => 'InteropIFD',
},
0x1002 => { #5
Name => 'RelatedImageHeight',
Notes => 'called RelatedImageLength by the DCF spec.',
Protected => 1,
Writable => 'int16u',
WriteGroup => 'InteropIFD',
},
# (0x474x tags written by MicrosoftPhoto)
0x4746 => { #PH
Name => 'Rating',
Writable => 'int16u',
WriteGroup => 'IFD0',
Avoid => 1,
},
0x4747 => { # (written by Digital Image Pro)
Name => 'XP_DIP_XML',
Format => 'undef',
# the following reference indicates this is Unicode:
# http://social.msdn.microsoft.com/Forums/en-US/isvvba/thread/ce6edcbb-8fc2-40c6-ad98-85f5d835ddfb
ValueConv => '$self->Decode($val,"UCS2","II")',
},
0x4748 => {
Name => 'StitchInfo',
SubDirectory => {
TagTable => 'Image::ExifTool::Microsoft::Stitch',
ByteOrder => 'LittleEndian', #PH (NC)
},
},
0x4749 => { #PH
Name => 'RatingPercent',
Writable => 'int16u',
WriteGroup => 'IFD0',
Avoid => 1,
},
0x7000 => { #JR
Name => 'SonyRawFileType',
# (only valid if Sony:FileFormat >= ARW 2.0, ref IB)
# Writable => 'int16u', (don't allow writes for now)
PrintConv => {
0 => 'Sony Uncompressed 14-bit RAW',
1 => 'Sony Uncompressed 12-bit RAW', #IB
2 => 'Sony Compressed RAW', # (lossy, ref IB)
3 => 'Sony Lossless Compressed RAW', #IB
},
},
# 0x7001 - int16u[1] (in SubIFD of Sony ARW images) - values: 0,1
0x7010 => { #IB
Name => 'SonyToneCurve',
# int16u[4] (in SubIFD of Sony ARW images -- don't allow writes for now)
# - only the middle 4 points are stored (lower comes from black level,
# and upper from data maximum)
},
# 0x7011 - int16u[4] (in SubIFD of Sony ARW images) - values: "0 4912 8212 12287","4000 7200 10050 12075"
# 0x7020 - int32u[1] (in SubIFD of Sony ARW images) - values: 0,3
0x7031 => {
Name => 'VignettingCorrection',
Notes => 'found in Sony ARW images',
Protected => 1,
Writable => 'int16s',
WriteGroup => 'SubIFD',
PrintConv => {
256 => 'Off',
257 => 'Auto',
511 => 'No correction params available',
},
},
0x7032 => {
Name => 'VignettingCorrParams', #forum7640
Notes => 'found in Sony ARW images',
Protected => 1,
Writable => 'int16s',
WriteGroup => 'SubIFD',
Count => 17,
},
0x7034 => {
Name => 'ChromaticAberrationCorrection',
Notes => 'found in Sony ARW images',
Protected => 1,
Writable => 'int16s',
WriteGroup => 'SubIFD',
PrintConv => {
0 => 'Off',
1 => 'Auto',
255 => 'No correction params available',
},
},
0x7035 => {
Name => 'ChromaticAberrationCorrParams', #forum6509
Notes => 'found in Sony ARW images',
Protected => 1,
Writable => 'int16s',
WriteGroup => 'SubIFD',
Count => 33,
},
0x7036 => {
Name => 'DistortionCorrection',
Notes => 'found in Sony ARW images',
Protected => 1,
Writable => 'int16s',
WriteGroup => 'SubIFD',
PrintConv => {
0 => 'Off',
1 => 'Auto',
17 => 'Auto fixed by lens',
255 => 'No correction params available',
},
},
0x7037 => {
Name => 'DistortionCorrParams', #forum6509
Notes => 'found in Sony ARW images',
Protected => 1,
Writable => 'int16s',
WriteGroup => 'SubIFD',
Count => 17,
},
0x800d => 'ImageID', #10
0x80a3 => { Name => 'WangTag1', Binary => 1 }, #20
0x80a4 => { Name => 'WangAnnotation', Binary => 1 },
0x80a5 => { Name => 'WangTag3', Binary => 1 }, #20
0x80a6 => { #20
Name => 'WangTag4',
PrintConv => 'length($val) <= 64 ? $val : \$val',
},
# tags 0x80b8-0x80bc are registered to Island Graphics
0x80b9 => 'ImageReferencePoints', #29
0x80ba => 'RegionXformTackPoint', #29
0x80bb => 'WarpQuadrilateral', #29
0x80bc => 'AffineTransformMat', #29
0x80e3 => 'Matteing', #9
0x80e4 => 'DataType', #9
0x80e5 => 'ImageDepth', #9
0x80e6 => 'TileDepth', #9
# tags 0x8214-0x8219 are registered to Pixar
0x8214 => 'ImageFullWidth', #29
0x8215 => 'ImageFullHeight', #29
0x8216 => 'TextureFormat', #29
0x8217 => 'WrapModes', #29
0x8218 => 'FovCot', #29
0x8219 => 'MatrixWorldToScreen', #29
0x821a => 'MatrixWorldToCamera', #29
0x827d => 'Model2', #29 (Eastman Kodak)
0x828d => { #12
Name => 'CFARepeatPatternDim',
Protected => 1,
Writable => 'int16u',
WriteGroup => 'SubIFD',
Count => 2,
},
0x828e => {
Name => 'CFAPattern2', #12
Format => 'int8u', # (written incorrectly as 'undef' in Nikon NRW images)
Protected => 1,
Writable => 'int8u',
WriteGroup => 'SubIFD',
Count => -1,
},
0x828f => { #12
Name => 'BatteryLevel',
Groups => { 2 => 'Camera' },
},
0x8290 => {
Name => 'KodakIFD',
Groups => { 1 => 'KodakIFD' },
Flags => 'SubIFD',
Notes => 'used in various types of Kodak images',
SubDirectory => {
TagTable => 'Image::ExifTool::Kodak::IFD',
DirName => 'KodakIFD',
Start => '$val',
MaxSubdirs => 1,
},
},
0x8298 => {
Name => 'Copyright',
Groups => { 2 => 'Author' },
Format => 'undef',
Writable => 'string',
WriteGroup => 'IFD0',
RawConvInv => '$val . "\0"',
PrintConvInv => sub {
my ($val, $self) = @_;
# encode if necessary (not automatic because Format is 'undef')
my $enc = $self->Options('CharsetEXIF');
$val = $self->Encode($val,$enc) if $enc and $val !~ /\0/;
if ($val =~ /(.*?)\s*[\n\r]+\s*(.*)/s) {
return $1 unless length $2;
# photographer copyright set to ' ' if it doesn't exist, according to spec.
return((length($1) ? $1 : ' ') . "\0" . $2);
}
return $val;
},
Notes => q{
may contain copyright notices for photographer and editor, separated by a
newline. As per the EXIF specification, the newline is replaced by a null
byte when writing to file, but this may be avoided by disabling the print
conversion
},
# internally the strings are separated by a null character in this format:
# Photographer only: photographer + NULL
# Both: photographer + NULL + editor + NULL
# Editor only: SPACE + NULL + editor + NULL
# (this is done as a RawConv so conditional replaces will work properly)
RawConv => sub {
my ($val, $self) = @_;
$val =~ s/ *\0/\n/; # translate first NULL to a newline, removing trailing blanks
$val =~ s/ *\0.*//s; # truncate at second NULL and remove trailing blanks
$val =~ s/\n$//; # remove trailing newline if it exists
# decode if necessary (note: this is the only non-'string' EXIF value like this)
my $enc = $self->Options('CharsetEXIF');
$val = $self->Decode($val,$enc) if $enc;
return $val;
},
},
0x829a => {
Name => 'ExposureTime',
Writable => 'rational64u',
PrintConv => 'Image::ExifTool::Exif::PrintExposureTime($val)',
PrintConvInv => '$val',
},
0x829d => {
Name => 'FNumber',
Writable => 'rational64u',
PrintConv => 'Image::ExifTool::Exif::PrintFNumber($val)',
PrintConvInv => '$val',
},
0x82a5 => { #3
Name => 'MDFileTag',
Notes => 'tags 0x82a5-0x82ac are used in Molecular Dynamics GEL files',
},
0x82a6 => 'MDScalePixel', #3
0x82a7 => 'MDColorTable', #3
0x82a8 => 'MDLabName', #3
0x82a9 => 'MDSampleInfo', #3
0x82aa => 'MDPrepDate', #3
0x82ab => 'MDPrepTime', #3
0x82ac => 'MDFileUnits', #3
0x830e => 'PixelScale', #30
0x8335 => 'AdventScale', #20
0x8336 => 'AdventRevision', #20
0x835c => 'UIC1Tag', #23
0x835d => 'UIC2Tag', #23
0x835e => 'UIC3Tag', #23
0x835f => 'UIC4Tag', #23
0x83bb => { #12
Name => 'IPTC-NAA', # (writable directory! -- but see note below)
# this should actually be written as 'undef' (see
# http://www.awaresystems.be/imaging/tiff/tifftags/iptc.html),
# but Photoshop writes it as int32u and Nikon Capture won't read
# anything else, so we do the same thing here... Doh!
Format => 'undef', # convert binary values as undef
Writable => 'int32u', # but write int32u format code in IFD
WriteGroup => 'IFD0',
Flags => [ 'Binary', 'Protected' ],
SubDirectory => {
DirName => 'IPTC',
TagTable => 'Image::ExifTool::IPTC::Main',
},
# Note: This directory may be written as a block via the IPTC-NAA tag,
# but this technique is not recommended. Instead, it is better to
# write the Extra IPTC tag and let ExifTool decide where it should go.
},
0x847e => 'IntergraphPacketData', #3
0x847f => 'IntergraphFlagRegisters', #3
0x8480 => 'IntergraphMatrix', #30
0x8481 => 'INGRReserved', #20
0x8482 => { #30
Name => 'ModelTiePoint',
Groups => { 2 => 'Location' },
},
0x84e0 => 'Site', #9
0x84e1 => 'ColorSequence', #9
0x84e2 => 'IT8Header', #9
0x84e3 => { #9
Name => 'RasterPadding',
PrintConv => { #20
0 => 'Byte',
1 => 'Word',
2 => 'Long Word',
9 => 'Sector',
10 => 'Long Sector',
},
},
0x84e4 => 'BitsPerRunLength', #9
0x84e5 => 'BitsPerExtendedRunLength', #9
0x84e6 => 'ColorTable', #9
0x84e7 => { #9
Name => 'ImageColorIndicator',
PrintConv => { #20
0 => 'Unspecified Image Color',
1 => 'Specified Image Color',
},
},
0x84e8 => { #9
Name => 'BackgroundColorIndicator',
PrintConv => { #20
0 => 'Unspecified Background Color',
1 => 'Specified Background Color',
},
},
0x84e9 => 'ImageColorValue', #9
0x84ea => 'BackgroundColorValue', #9
0x84eb => 'PixelIntensityRange', #9
0x84ec => 'TransparencyIndicator', #9
0x84ed => 'ColorCharacterization', #9
0x84ee => { #9
Name => 'HCUsage',
PrintConv => { #20
0 => 'CT',
1 => 'Line Art',
2 => 'Trap',
},
},
0x84ef => 'TrapIndicator', #17
0x84f0 => 'CMYKEquivalent', #17
0x8546 => { #11
Name => 'SEMInfo',
Notes => 'found in some scanning electron microscope images',
Writable => 'string',
WriteGroup => 'IFD0',
},
0x8568 => {
Name => 'AFCP_IPTC',
SubDirectory => {
# must change directory name so we don't create this directory
DirName => 'AFCP_IPTC',
TagTable => 'Image::ExifTool::IPTC::Main',
},
},
0x85b8 => 'PixelMagicJBIGOptions', #20
0x85d7 => 'JPLCartoIFD', #exifprobe (NC)
0x85d8 => { #30
Name => 'ModelTransform',
Groups => { 2 => 'Location' },
},
0x8602 => { #16
Name => 'WB_GRGBLevels',
Notes => 'found in IFD0 of Leaf MOS images',
},
# 0x8603 - Leaf CatchLight color matrix (ref 16)
0x8606 => {
Name => 'LeafData',
Format => 'undef', # avoid converting huge block to string of int8u's!
SubDirectory => {
DirName => 'LeafIFD',
TagTable => 'Image::ExifTool::Leaf::Main',
},
},
0x8649 => { #19
Name => 'PhotoshopSettings',
Format => 'binary',
WriteGroup => 'IFD0', # (only for Validate)
SubDirectory => {
DirName => 'Photoshop',
TagTable => 'Image::ExifTool::Photoshop::Main',
},
},
0x8769 => {
Name => 'ExifOffset',
Groups => { 1 => 'ExifIFD' },
WriteGroup => 'IFD0', # (only for Validate)
SubIFD => 2,
SubDirectory => {
DirName => 'ExifIFD',
Start => '$val',
},
},
0x8773 => {
Name => 'ICC_Profile',
WriteGroup => 'IFD0', # (only for Validate)
SubDirectory => {
TagTable => 'Image::ExifTool::ICC_Profile::Main',
},
},
0x877f => { #20
Name => 'TIFF_FXExtensions',
PrintConv => { BITMASK => {
0 => 'Resolution/Image Width',
1 => 'N Layer Profile M',
2 => 'Shared Data',
3 => 'B&W JBIG2',
4 => 'JBIG2 Profile M',
}},
},
0x8780 => { #20
Name => 'MultiProfiles',
PrintConv => { BITMASK => {
0 => 'Profile S',
1 => 'Profile F',
2 => 'Profile J',
3 => 'Profile C',
4 => 'Profile L',
5 => 'Profile M',
6 => 'Profile T',
7 => 'Resolution/Image Width',
8 => 'N Layer Profile M',
9 => 'Shared Data',
10 => 'JBIG2 Profile M',
}},
},
0x8781 => { #22
Name => 'SharedData',
IsOffset => 1,
# this tag is not supported for writing, so define an
# invalid offset pair to cause a "No size tag" error to be
# generated if we try to write a file containing this tag
OffsetPair => -1,
},
0x8782 => 'T88Options', #20
0x87ac => 'ImageLayer',
0x87af => { #30
Name => 'GeoTiffDirectory',
Format => 'undef',
Binary => 1,
Notes => q{
these "GeoTiff" tags may read and written as a block, but they aren't
extracted unless specifically requested. Byte order changes are handled
automatically when copying between TIFF images with different byte order
},
Writable => 'undef',
WriteGroup => 'IFD0',
RawConv => '$val . GetByteOrder()', # save byte order
# swap byte order if necessary
RawConvInv => q{
return $val if length $val < 2;
my $order = substr($val, -2);
return $val unless $order eq 'II' or $order eq 'MM';
$val = substr($val, 0, -2);
return $val if $order eq GetByteOrder();
return pack('v*',unpack('n*',$val));
},
},
0x87b0 => { #30
Name => 'GeoTiffDoubleParams',
Format => 'undef',
Binary => 1,
Writable => 'undef',
WriteGroup => 'IFD0',
RawConv => '$val . GetByteOrder()', # save byte order
# swap byte order if necessary
RawConvInv => q{
return $val if length $val < 2;
my $order = substr($val, -2);
return $val unless $order eq 'II' or $order eq 'MM';
$val = substr($val, 0, -2);
return $val if $order eq GetByteOrder();
$val =~ s/(.{4})(.{4})/$2$1/sg; # swap words
return pack('V*',unpack('N*',$val));
},
},
0x87b1 => { #30
Name => 'GeoTiffAsciiParams',
Writable => 'string',
WriteGroup => 'IFD0',
Binary => 1,
},
0x87be => 'JBIGOptions', #29
0x8822 => {
Name => 'ExposureProgram',
Groups => { 2 => 'Camera' },
Notes => 'the value of 9 is not standard EXIF, but is used by the Canon EOS 7D',
Writable => 'int16u',
PrintConv => {
0 => 'Not Defined',
1 => 'Manual',
2 => 'Program AE',
3 => 'Aperture-priority AE',
4 => 'Shutter speed priority AE',
5 => 'Creative (Slow speed)',
6 => 'Action (High speed)',
7 => 'Portrait',
8 => 'Landscape',
9 => 'Bulb', #25
},
},
0x8824 => {
Name => 'SpectralSensitivity',
Groups => { 2 => 'Camera' },
Writable => 'string',
},
0x8825 => {
Name => 'GPSInfo',
Groups => { 1 => 'GPS' },
WriteGroup => 'IFD0', # (only for Validate)
Flags => 'SubIFD',
SubDirectory => {
DirName => 'GPS',
TagTable => 'Image::ExifTool::GPS::Main',
Start => '$val',
MaxSubdirs => 1,
},
},
0x8827 => {
Name => 'ISO',
Notes => q{
called ISOSpeedRatings by EXIF 2.2, then PhotographicSensitivity by the EXIF
2.3 spec.
},
Writable => 'int16u',
Count => -1,
PrintConv => '$val=~s/\s+/, /g; $val',
PrintConvInv => '$val=~tr/,//d; $val',
},
0x8828 => {
Name => 'Opto-ElectricConvFactor',
Notes => 'called OECF by the EXIF spec.',
Binary => 1,
},
0x8829 => 'Interlace', #12
0x882a => { #12
Name => 'TimeZoneOffset',
Writable => 'int16s',
Count => -1, # can be 1 or 2
Notes => q{
1 or 2 values: 1. The time zone offset of DateTimeOriginal from GMT in
hours, 2. If present, the time zone offset of ModifyDate
},
},
0x882b => { #12
Name => 'SelfTimerMode',
Writable => 'int16u',
},
0x8830 => { #24
Name => 'SensitivityType',
Notes => 'applies to EXIF:ISO tag',
Writable => 'int16u',
PrintConv => {
0 => 'Unknown',
1 => 'Standard Output Sensitivity',
2 => 'Recommended Exposure Index',
3 => 'ISO Speed',
4 => 'Standard Output Sensitivity and Recommended Exposure Index',
5 => 'Standard Output Sensitivity and ISO Speed',
6 => 'Recommended Exposure Index and ISO Speed',
7 => 'Standard Output Sensitivity, Recommended Exposure Index and ISO Speed',
},
},
0x8831 => { #24
Name => 'StandardOutputSensitivity',
Writable => 'int32u',
},
0x8832 => { #24
Name => 'RecommendedExposureIndex',
Writable => 'int32u',
},
0x8833 => { #24
Name => 'ISOSpeed',
Writable => 'int32u',
},
0x8834 => { #24
Name => 'ISOSpeedLatitudeyyy',
Description => 'ISO Speed Latitude yyy',
Writable => 'int32u',
},
0x8835 => { #24
Name => 'ISOSpeedLatitudezzz',
Description => 'ISO Speed Latitude zzz',
Writable => 'int32u',
},
0x885c => 'FaxRecvParams', #9
0x885d => 'FaxSubAddress', #9
0x885e => 'FaxRecvTime', #9
0x8871 => 'FedexEDR', #exifprobe (NC)
0x888a => { #PH
Name => 'LeafSubIFD',
Format => 'int32u', # Leaf incorrectly uses 'undef' format!
Groups => { 1 => 'LeafSubIFD' },
Flags => 'SubIFD',
SubDirectory => {
TagTable => 'Image::ExifTool::Leaf::SubIFD',
Start => '$val',
},
},
# 0x89ab - seen "11 100 130 16 0 0 0 0" in IFD0 of TIFF image from IR scanner (forum8470)
0x9000 => {
Name => 'ExifVersion',
Writable => 'undef',
Mandatory => 1,
RawConv => '$val=~s/\0+$//; $val', # (some idiots add null terminators)
PrintConvInv => '$val=~tr/.//d; $val=~/^\d{4}$/ ? $val : undef',
},
0x9003 => {
Name => 'DateTimeOriginal',
Description => 'Date/Time Original',
Groups => { 2 => 'Time' },
Notes => 'date/time when original image was taken',
Writable => 'string',
Shift => 'Time',
Validate => 'ValidateExifDate($val)',
PrintConv => '$self->ConvertDateTime($val)',
PrintConvInv => '$self->InverseDateTime($val,0)',
},
0x9004 => {
Name => 'CreateDate',
Groups => { 2 => 'Time' },
Notes => 'called DateTimeDigitized by the EXIF spec.',
Writable => 'string',
Shift => 'Time',
Validate => 'ValidateExifDate($val)',
PrintConv => '$self->ConvertDateTime($val)',
PrintConvInv => '$self->InverseDateTime($val,0)',
},
0x9009 => { # undef[44] (or undef[11]) written by Google Plus uploader - PH
Name => 'GooglePlusUploadCode',
Format => 'int8u',
Writable => 'undef',
Count => -1,
},
0x9010 => {
Name => 'OffsetTime',
Groups => { 2 => 'Time' },
Notes => 'time zone for ModifyDate',
Writable => 'string',
PrintConvInv => q{
return "+00:00" if $val =~ /\d{2}Z$/;
return sprintf("%s%.2d:%.2d",$1,$2,$3) if $val =~ /([-+])(\d{1,2}):(\d{2})/;
return undef;
},
},
0x9011 => {
Name => 'OffsetTimeOriginal',
Groups => { 2 => 'Time' },
Notes => 'time zone for DateTimeOriginal',
Writable => 'string',
PrintConvInv => q{
return "+00:00" if $val =~ /\d{2}Z$/;
return sprintf("%s%.2d:%.2d",$1,$2,$3) if $val =~ /([-+])(\d{1,2}):(\d{2})/;
return undef;
},
},
0x9012 => {
Name => 'OffsetTimeDigitized',
Groups => { 2 => 'Time' },
Notes => 'time zone for CreateDate',
Writable => 'string',
PrintConvInv => q{
return "+00:00" if $val =~ /\d{2}Z$/;
return sprintf("%s%.2d:%.2d",$1,$2,$3) if $val =~ /([-+])(\d{1,2}):(\d{2})/;
return undef;
},
},
0x9101 => {
Name => 'ComponentsConfiguration',
Format => 'int8u',
Protected => 1,
Writable => 'undef',
Count => 4,
Mandatory => 1,
ValueConvInv => '$val=~tr/,//d; $val', # (so we can copy from XMP with -n)
PrintConvColumns => 2,
PrintConv => {
0 => '-',
1 => 'Y',
2 => 'Cb',
3 => 'Cr',
4 => 'R',
5 => 'G',
6 => 'B',
OTHER => sub {
my ($val, $inv, $conv) = @_;
my @a = split /,?\s+/, $val;
if ($inv) {
my %invConv;
$invConv{lc $$conv{$_}} = $_ foreach keys %$conv;
# strings like "YCbCr" and "RGB" still work for writing
@a = $a[0] =~ /(Y|Cb|Cr|R|G|B)/g if @a == 1;
foreach (@a) {
$_ = $invConv{lc $_};
return undef unless defined $_;
}
push @a, 0 while @a < 4;
} else {
foreach (@a) {
$_ = $$conv{$_} || "Err ($_)";
}
}
return join ', ', @a;
},
},
},
0x9102 => {
Name => 'CompressedBitsPerPixel',
Protected => 1,
Writable => 'rational64u',
},
# 0x9103 - int16u: 1 (found in Pentax XG-1 samples)
0x9201 => {
Name => 'ShutterSpeedValue',
Notes => 'displayed in seconds, but stored as an APEX value',
Format => 'rational64s', # Leica M8 patch (incorrectly written as rational64u)
Writable => 'rational64s',
ValueConv => 'abs($val)<100 ? 2**(-$val) : 0',
ValueConvInv => '$val>0 ? -log($val)/log(2) : -100',
PrintConv => 'Image::ExifTool::Exif::PrintExposureTime($val)',
PrintConvInv => 'Image::ExifTool::Exif::ConvertFraction($val)',
},
0x9202 => {
Name => 'ApertureValue',
Notes => 'displayed as an F number, but stored as an APEX value',
Writable => 'rational64u',
ValueConv => '2 ** ($val / 2)',
ValueConvInv => '$val>0 ? 2*log($val)/log(2) : 0',
PrintConv => 'sprintf("%.1f",$val)',
PrintConvInv => '$val',
},
# Wikipedia: BrightnessValue = Bv = Av + Tv - Sv
# ExifTool: LightValue = LV = Av + Tv - Sv + 5 (5 is the Sv for ISO 100 in Exif usage)
0x9203 => {
Name => 'BrightnessValue',
Writable => 'rational64s',
},
0x9204 => {
Name => 'ExposureCompensation',
Format => 'rational64s', # Leica M8 patch (incorrectly written as rational64u)
Notes => 'called ExposureBiasValue by the EXIF spec.',
Writable => 'rational64s',
PrintConv => 'Image::ExifTool::Exif::PrintFraction($val)',
PrintConvInv => '$val',
},
0x9205 => {
Name => 'MaxApertureValue',
Notes => 'displayed as an F number, but stored as an APEX value',
Groups => { 2 => 'Camera' },
Writable => 'rational64u',
ValueConv => '2 ** ($val / 2)',
ValueConvInv => '$val>0 ? 2*log($val)/log(2) : 0',
PrintConv => 'sprintf("%.1f",$val)',
PrintConvInv => '$val',
},
0x9206 => {
Name => 'SubjectDistance',
Groups => { 2 => 'Camera' },
Writable => 'rational64u',
PrintConv => '$val =~ /^(inf|undef)$/ ? $val : "${val} m"',
PrintConvInv => '$val=~s/\s*m$//;$val',
},
0x9207 => {
Name => 'MeteringMode',
Groups => { 2 => 'Camera' },
Writable => 'int16u',
PrintConv => {
0 => 'Unknown',
1 => 'Average',
2 => 'Center-weighted average',
3 => 'Spot',
4 => 'Multi-spot',
5 => 'Multi-segment',
6 => 'Partial',
255 => 'Other',
},
},
0x9208 => {
Name => 'LightSource',
Groups => { 2 => 'Camera' },
Writable => 'int16u',
SeparateTable => 'LightSource',
PrintConv => \%lightSource,
},
0x9209 => {
Name => 'Flash',
Groups => { 2 => 'Camera' },
Writable => 'int16u',
Flags => 'PrintHex',
SeparateTable => 'Flash',
PrintConv => \%flash,
},
0x920a => {
Name => 'FocalLength',
Groups => { 2 => 'Camera' },
Writable => 'rational64u',
PrintConv => 'sprintf("%.1f mm",$val)',
PrintConvInv => '$val=~s/\s*mm$//;$val',
},
# Note: tags 0x920b-0x9217 are duplicates of 0xa20b-0xa217
# (The EXIF standard uses 0xa2xx, but you'll find both in images)
0x920b => { #12
Name => 'FlashEnergy',
Groups => { 2 => 'Camera' },
},
0x920c => 'SpatialFrequencyResponse', #12 (not in Fuji images - PH)
0x920d => 'Noise', #12
0x920e => 'FocalPlaneXResolution', #12
0x920f => 'FocalPlaneYResolution', #12
0x9210 => { #12
Name => 'FocalPlaneResolutionUnit',
Groups => { 2 => 'Camera' },
PrintConv => {
1 => 'None',
2 => 'inches',
3 => 'cm',
4 => 'mm',
5 => 'um',
},
},
0x9211 => { #12
Name => 'ImageNumber',
Writable => 'int32u',
},
0x9212 => { #12
Name => 'SecurityClassification',
Writable => 'string',
PrintConv => {
T => 'Top Secret',
S => 'Secret',
C => 'Confidential',
R => 'Restricted',
U => 'Unclassified',
},
},
0x9213 => { #12
Name => 'ImageHistory',
Writable => 'string',
},
0x9214 => {
Name => 'SubjectArea',
Groups => { 2 => 'Camera' },
Writable => 'int16u',
Count => -1, # 2, 3 or 4 values
},
0x9215 => 'ExposureIndex', #12
0x9216 => 'TIFF-EPStandardID', #12
0x9217 => { #12
Name => 'SensingMethod',
Groups => { 2 => 'Camera' },
PrintConv => {
# (values 1 and 6 are not used by corresponding EXIF tag 0xa217)
1 => 'Monochrome area',
2 => 'One-chip color area',
3 => 'Two-chip color area',
4 => 'Three-chip color area',
5 => 'Color sequential area',
6 => 'Monochrome linear',
7 => 'Trilinear',
8 => 'Color sequential linear',
},
},
0x923a => 'CIP3DataFile', #20
0x923b => 'CIP3Sheet', #20
0x923c => 'CIP3Side', #20
0x923f => 'StoNits', #9
# handle maker notes as a conditional list
0x927c => \@Image::ExifTool::MakerNotes::Main,
0x9286 => {
Name => 'UserComment',
# I have seen other applications write it incorrectly as 'string' or 'int8u'
Format => 'undef',
Writable => 'undef',
RawConv => 'Image::ExifTool::Exif::ConvertExifText($self,$val,1,$tag)',
# (starts with "ASCII\0\0\0", "UNICODE\0", "JIS\0\0\0\0\0" or "\0\0\0\0\0\0\0\0")
RawConvInv => 'Image::ExifTool::Exif::EncodeExifText($self,$val)',
# SHOULD ADD SPECIAL LOGIC TO ALLOW CONDITIONAL OVERWRITE OF
# "UNKNOWN" VALUES FILLED WITH SPACES
},
0x9290 => {
Name => 'SubSecTime',
Groups => { 2 => 'Time' },
Notes => 'fractional seconds for ModifyDate',
Writable => 'string',
ValueConv => '$val=~s/ +$//; $val', # trim trailing blanks
# extract fractional seconds from a full date/time value
ValueConvInv => '$val=~/^(\d+)\s*$/ ? $1 : ($val=~/\.(\d+)/ ? $1 : undef)',
},
0x9291 => {
Name => 'SubSecTimeOriginal',
Groups => { 2 => 'Time' },
Notes => 'fractional seconds for DateTimeOriginal',
Writable => 'string',
ValueConv => '$val=~s/ +$//; $val', # trim trailing blanks
ValueConvInv => '$val=~/^(\d+)\s*$/ ? $1 : ($val=~/\.(\d+)/ ? $1 : undef)',
},
0x9292 => {
Name => 'SubSecTimeDigitized',
Groups => { 2 => 'Time' },
Notes => 'fractional seconds for CreateDate',
Writable => 'string',
ValueConv => '$val=~s/ +$//; $val', # trim trailing blanks
ValueConvInv => '$val=~/^(\d+)\s*$/ ? $1 : ($val=~/\.(\d+)/ ? $1 : undef)',
},
# The following 3 tags are found in MSOffice TIFF images
# References:
# http://social.msdn.microsoft.com/Forums/en-US/os_standocs/thread/03086d55-294a-49d5-967a-5303d34c40f8/
# http://blogs.msdn.com/openspecification/archive/2009/12/08/details-of-three-tiff-tag-extensions-that-microsoft-office-document-imaging-modi-software-may-write-into-the-tiff-files-it-generates.aspx
# http://www.microsoft.com/downloads/details.aspx?FamilyID=0dbc435d-3544-4f4b-9092-2f2643d64a39&displaylang=en#filelist
0x932f => 'MSDocumentText',
0x9330 => {
Name => 'MSPropertySetStorage',
Binary => 1,
},
0x9331 => {
Name => 'MSDocumentTextPosition',
Binary => 1, # (just in case -- don't know what format this is)
},
0x935c => { #3/19
Name => 'ImageSourceData', # (writable directory!)
Writable => 'undef',
WriteGroup => 'IFD0',
SubDirectory => { TagTable => 'Image::ExifTool::Photoshop::DocumentData' },
Binary => 1,
Protected => 1, # (because this can be hundreds of megabytes)
ReadFromRAF => 1, # don't load into memory when reading
},
0x9400 => {
Name => 'AmbientTemperature',
Notes => 'ambient temperature in degrees C, called Temperature by the EXIF spec.',
Writable => 'rational64s',
PrintConv => '"$val C"',
PrintConvInv => '$val=~s/ ?C//; $val',
},
0x9401 => {
Name => 'Humidity',
Notes => 'ambient relative humidity in percent',
Writable => 'rational64u',
},
0x9402 => {
Name => 'Pressure',
Notes => 'air pressure in hPa or mbar',
Writable => 'rational64u',
},
0x9403 => {
Name => 'WaterDepth',
Notes => 'depth under water in metres, negative for above water',
Writable => 'rational64s',
},
0x9404 => {
Name => 'Acceleration',
Notes => 'directionless camera acceleration in units of mGal, or 10-5 m/s2',
Writable => 'rational64u',
},
0x9405 => {
Name => 'CameraElevationAngle',
Writable => 'rational64s',
},
0x9c9b => {
Name => 'XPTitle',
Format => 'undef',
Writable => 'int8u',
WriteGroup => 'IFD0',
Notes => q{
tags 0x9c9b-0x9c9f are used by Windows Explorer; special characters
in these values are converted to UTF-8 by default, or Windows Latin1
with the -L option. XPTitle is ignored by Windows Explorer if
ImageDescription exists
},
ValueConv => '$self->Decode($val,"UCS2","II")',
ValueConvInv => '$self->Encode($val,"UCS2","II") . "\0\0"',
},
0x9c9c => {
Name => 'XPComment',
Format => 'undef',
Writable => 'int8u',
WriteGroup => 'IFD0',
ValueConv => '$self->Decode($val,"UCS2","II")',
ValueConvInv => '$self->Encode($val,"UCS2","II") . "\0\0"',
},
0x9c9d => {
Name => 'XPAuthor',
Groups => { 2 => 'Author' },
Format => 'undef',
Writable => 'int8u',
WriteGroup => 'IFD0',
Notes => 'ignored by Windows Explorer if Artist exists',
ValueConv => '$self->Decode($val,"UCS2","II")',
ValueConvInv => '$self->Encode($val,"UCS2","II") . "\0\0"',
},
0x9c9e => {
Name => 'XPKeywords',
Format => 'undef',
Writable => 'int8u',
WriteGroup => 'IFD0',
ValueConv => '$self->Decode($val,"UCS2","II")',
ValueConvInv => '$self->Encode($val,"UCS2","II") . "\0\0"',
},
0x9c9f => {
Name => 'XPSubject',
Format => 'undef',
Writable => 'int8u',
WriteGroup => 'IFD0',
ValueConv => '$self->Decode($val,"UCS2","II")',
ValueConvInv => '$self->Encode($val,"UCS2","II") . "\0\0"',
},
0xa000 => {
Name => 'FlashpixVersion',
Writable => 'undef',
Mandatory => 1,
RawConv => '$val=~s/\0+$//; $val', # (some idiots add null terminators)
PrintConvInv => '$val=~tr/.//d; $val=~/^\d{4}$/ ? $val : undef',
},
0xa001 => {
Name => 'ColorSpace',
Notes => q{
the value of 0x2 is not standard EXIF. Instead, an Adobe RGB image is
indicated by "Uncalibrated" with an InteropIndex of "R03". The values
0xfffd and 0xfffe are also non-standard, and are used by some Sony cameras
},
Writable => 'int16u',
Mandatory => 1,
PrintHex => 1,
PrintConv => {
1 => 'sRGB',
2 => 'Adobe RGB',
0xffff => 'Uncalibrated',
# Sony uses these definitions: (ref JD)
# 0xffff => 'Adobe RGB', (conflicts with Uncalibrated)
0xfffe => 'ICC Profile',
0xfffd => 'Wide Gamut RGB',
},
},
0xa002 => {
Name => 'ExifImageWidth',
Notes => 'called PixelXDimension by the EXIF spec.',
Writable => 'int16u',
Mandatory => 1,
},
0xa003 => {
Name => 'ExifImageHeight',
Notes => 'called PixelYDimension by the EXIF spec.',
Writable => 'int16u',
Mandatory => 1,
},
0xa004 => {
Name => 'RelatedSoundFile',
Writable => 'string',
},
0xa005 => {
Name => 'InteropOffset',
Groups => { 1 => 'InteropIFD' },
Flags => 'SubIFD',
Description => 'Interoperability Offset',
SubDirectory => {
DirName => 'InteropIFD',
Start => '$val',
MaxSubdirs => 1,
},
},
# the following 4 tags found in SubIFD1 of some Samsung SRW images
0xa010 => {
Name => 'SamsungRawPointersOffset',
IsOffset => 1,
OffsetPair => 0xa011, # point to associated byte count
},
0xa011 => {
Name => 'SamsungRawPointersLength',
OffsetPair => 0xa010, # point to associated offset
},
0xa101 => {
Name => 'SamsungRawByteOrder',
Format => 'undef',
# this is written incorrectly as string[1], but is "\0\0MM" or "II\0\0"
FixedSize => 4,
Count => 1,
},
0xa102 => {
Name => 'SamsungRawUnknown',
Unknown => 1,
},
0xa20b => {
Name => 'FlashEnergy',
Groups => { 2 => 'Camera' },
Writable => 'rational64u',
},
0xa20c => {
Name => 'SpatialFrequencyResponse',
PrintConv => 'Image::ExifTool::Exif::PrintSFR($val)',
},
0xa20d => 'Noise',
0xa20e => {
Name => 'FocalPlaneXResolution',
Groups => { 2 => 'Camera' },
Writable => 'rational64u',
},
0xa20f => {
Name => 'FocalPlaneYResolution',
Groups => { 2 => 'Camera' },
Writable => 'rational64u',
},
0xa210 => {
Name => 'FocalPlaneResolutionUnit',
Groups => { 2 => 'Camera' },
Notes => 'values 1, 4 and 5 are not standard EXIF',
Writable => 'int16u',
PrintConv => {
1 => 'None', # (not standard EXIF)
2 => 'inches',
3 => 'cm',
4 => 'mm', # (not standard EXIF)
5 => 'um', # (not standard EXIF)
},
},
0xa211 => 'ImageNumber',
0xa212 => 'SecurityClassification',
0xa213 => 'ImageHistory',
0xa214 => {
Name => 'SubjectLocation',
Groups => { 2 => 'Camera' },
Writable => 'int16u',
Count => 2,
},
0xa215 => { Name => 'ExposureIndex', Writable => 'rational64u' },
0xa216 => 'TIFF-EPStandardID',
0xa217 => {
Name => 'SensingMethod',
Groups => { 2 => 'Camera' },
Writable => 'int16u',
PrintConv => {
1 => 'Not defined',
2 => 'One-chip color area',
3 => 'Two-chip color area',
4 => 'Three-chip color area',
5 => 'Color sequential area',
7 => 'Trilinear',
8 => 'Color sequential linear',
},
},
0xa300 => {
Name => 'FileSource',
Writable => 'undef',
ValueConvInv => '($val=~/^\d+$/ and $val < 256) ? chr($val) : $val',
PrintConv => {
1 => 'Film Scanner',
2 => 'Reflection Print Scanner',
3 => 'Digital Camera',
# handle the case where Sigma incorrectly gives this tag a count of 4
"\3\0\0\0" => 'Sigma Digital Camera',
},
},
0xa301 => {
Name => 'SceneType',
Writable => 'undef',
ValueConvInv => 'chr($val)',
PrintConv => {
1 => 'Directly photographed',
},
},
0xa302 => {
Name => 'CFAPattern',
Writable => 'undef',
RawConv => 'Image::ExifTool::Exif::DecodeCFAPattern($self, $val)',
RawConvInv => q{
my @a = split ' ', $val;
return $val if @a <= 2; # also accept binary data for backward compatibility
return pack(GetByteOrder() eq 'II' ? 'v2C*' : 'n2C*', @a);
},
PrintConv => 'Image::ExifTool::Exif::PrintCFAPattern($val)',
PrintConvInv => 'Image::ExifTool::Exif::GetCFAPattern($val)',
},
0xa401 => {
Name => 'CustomRendered',
Writable => 'int16u',
Notes => q{
only 0 and 1 are standard EXIF, but other values are used by Apple iOS
devices
},
PrintConv => {
0 => 'Normal',
1 => 'Custom',
# 2 - also seen (Apple iOS)
3 => 'HDR', # non-standard (Apple iOS)
# 4 - also seen (Apple iOS) - normal image from iOS Camera app (ref http://regex.info/blog/lightroom-goodies/metadata-presets)
6 => 'Panorama', # non-standard (Apple iOS, horizontal or vertical)
# 7 - also seen (Apple iOS)
8 => 'Portrait', # non-standard (Apple iOS, blurred background)
# 9 - also seen (Apple iOS) (HDR Portrait?)
},
},
0xa402 => {
Name => 'ExposureMode',
Groups => { 2 => 'Camera' },
Writable => 'int16u',
PrintConv => {
0 => 'Auto',
1 => 'Manual',
2 => 'Auto bracket',
# have seen 3 from Samsung EX1, NX30, NX200 - PH
},
},
0xa403 => {
Name => 'WhiteBalance',
Groups => { 2 => 'Camera' },
Writable => 'int16u',
# set Priority to zero to keep this WhiteBalance from overriding the
# MakerNotes WhiteBalance, since the MakerNotes WhiteBalance and is more
# accurate and contains more information (if it exists)
Priority => 0,
PrintConv => {
0 => 'Auto',
1 => 'Manual',
},
},
0xa404 => {
Name => 'DigitalZoomRatio',
Groups => { 2 => 'Camera' },
Writable => 'rational64u',
},
0xa405 => {
Name => 'FocalLengthIn35mmFormat',
Notes => 'called FocalLengthIn35mmFilm by the EXIF spec.',
Groups => { 2 => 'Camera' },
Writable => 'int16u',
PrintConv => '"$val mm"',
PrintConvInv => '$val=~s/\s*mm$//;$val',
},
0xa406 => {
Name => 'SceneCaptureType',
Groups => { 2 => 'Camera' },
Writable => 'int16u',
PrintConv => {
0 => 'Standard',
1 => 'Landscape',
2 => 'Portrait',
3 => 'Night',
# 4 - HDR (Samsung GT-I9300)
},
},
0xa407 => {
Name => 'GainControl',
Groups => { 2 => 'Camera' },
Writable => 'int16u',
PrintConv => {
0 => 'None',
1 => 'Low gain up',
2 => 'High gain up',
3 => 'Low gain down',
4 => 'High gain down',
},
},
0xa408 => {
Name => 'Contrast',
Groups => { 2 => 'Camera' },
Writable => 'int16u',
PrintConv => {
0 => 'Normal',
1 => 'Low',
2 => 'High',
},
PrintConvInv => 'Image::ExifTool::Exif::ConvertParameter($val)',
},
0xa409 => {
Name => 'Saturation',
Groups => { 2 => 'Camera' },
Writable => 'int16u',
PrintConv => {
0 => 'Normal',
1 => 'Low',
2 => 'High',
},
PrintConvInv => 'Image::ExifTool::Exif::ConvertParameter($val)',
},
0xa40a => {
Name => 'Sharpness',
Groups => { 2 => 'Camera' },
Writable => 'int16u',
PrintConv => {
0 => 'Normal',
1 => 'Soft',
2 => 'Hard',
},
PrintConvInv => 'Image::ExifTool::Exif::ConvertParameter($val)',
},
0xa40b => {
Name => 'DeviceSettingDescription',
Groups => { 2 => 'Camera' },
Binary => 1,
},
0xa40c => {
Name => 'SubjectDistanceRange',
Groups => { 2 => 'Camera' },
Writable => 'int16u',
PrintConv => {
0 => 'Unknown',
1 => 'Macro',
2 => 'Close',
3 => 'Distant',
},
},
# 0xa40d - int16u: 0 (GE E1486 TW)
# 0xa40e - int16u: 1 (GE E1486 TW)
0xa420 => { Name => 'ImageUniqueID', Writable => 'string' },
0xa430 => { #24
Name => 'OwnerName',
Notes => 'called CameraOwnerName by the EXIF spec.',
Writable => 'string',
},
0xa431 => { #24
Name => 'SerialNumber',
Notes => 'called BodySerialNumber by the EXIF spec.',
Writable => 'string',
},
0xa432 => { #24
Name => 'LensInfo',
Notes => q{
4 rational values giving focal and aperture ranges, called LensSpecification
by the EXIF spec.
},
Writable => 'rational64u',
Count => 4,
# convert to the form "12-20mm f/3.8-4.5" or "50mm f/1.4"
PrintConv => \&PrintLensInfo,
PrintConvInv => \&ConvertLensInfo,
},
0xa433 => { Name => 'LensMake', Writable => 'string' }, #24
0xa434 => { Name => 'LensModel', Writable => 'string' }, #24
0xa435 => { Name => 'LensSerialNumber', Writable => 'string' }, #24
0xa480 => 'GDALMetadata', #3
0xa481 => 'GDALNoData', #3
0xa500 => { Name => 'Gamma', Writable => 'rational64u' },
0xafc0 => 'ExpandSoftware', #JD (Opanda)
0xafc1 => 'ExpandLens', #JD (Opanda)
0xafc2 => 'ExpandFilm', #JD (Opanda)
0xafc3 => 'ExpandFilterLens', #JD (Opanda)
0xafc4 => 'ExpandScanner', #JD (Opanda)
0xafc5 => 'ExpandFlashLamp', #JD (Opanda)
#
# Windows Media Photo / HD Photo (WDP/HDP) tags
#
0xbc01 => { #13
Name => 'PixelFormat',
PrintHex => 1,
Format => 'undef',
Notes => q{
tags 0xbc** are used in Windows HD Photo (HDP and WDP) images. The actual
PixelFormat values are 16-byte GUID's but the leading 15 bytes,
'6fddc324-4e03-4bfe-b1853-d77768dc9', have been removed below to avoid
unnecessary clutter
},
ValueConv => q{
require Image::ExifTool::ASF;
$val = Image::ExifTool::ASF::GetGUID($val);
# GUID's are too long, so remove redundant information
$val =~ s/^6fddc324-4e03-4bfe-b185-3d77768dc9//i and $val = hex($val);
return $val;
},
PrintConv => {
0x0d => '24-bit RGB',
0x0c => '24-bit BGR',
0x0e => '32-bit BGR',
0x15 => '48-bit RGB',
0x12 => '48-bit RGB Fixed Point',
0x3b => '48-bit RGB Half',
0x18 => '96-bit RGB Fixed Point',
0x1b => '128-bit RGB Float',
0x0f => '32-bit BGRA',
0x16 => '64-bit RGBA',
0x1d => '64-bit RGBA Fixed Point',
0x3a => '64-bit RGBA Half',
0x1e => '128-bit RGBA Fixed Point',
0x19 => '128-bit RGBA Float',
0x10 => '32-bit PBGRA',
0x17 => '64-bit PRGBA',
0x1a => '128-bit PRGBA Float',
0x1c => '32-bit CMYK',
0x2c => '40-bit CMYK Alpha',
0x1f => '64-bit CMYK',
0x2d => '80-bit CMYK Alpha',
0x20 => '24-bit 3 Channels',
0x21 => '32-bit 4 Channels',
0x22 => '40-bit 5 Channels',
0x23 => '48-bit 6 Channels',
0x24 => '56-bit 7 Channels',
0x25 => '64-bit 8 Channels',
0x2e => '32-bit 3 Channels Alpha',
0x2f => '40-bit 4 Channels Alpha',
0x30 => '48-bit 5 Channels Alpha',
0x31 => '56-bit 6 Channels Alpha',
0x32 => '64-bit 7 Channels Alpha',
0x33 => '72-bit 8 Channels Alpha',
0x26 => '48-bit 3 Channels',
0x27 => '64-bit 4 Channels',
0x28 => '80-bit 5 Channels',
0x29 => '96-bit 6 Channels',
0x2a => '112-bit 7 Channels',
0x2b => '128-bit 8 Channels',
0x34 => '64-bit 3 Channels Alpha',
0x35 => '80-bit 4 Channels Alpha',
0x36 => '96-bit 5 Channels Alpha',
0x37 => '112-bit 6 Channels Alpha',
0x38 => '128-bit 7 Channels Alpha',
0x39 => '144-bit 8 Channels Alpha',
0x08 => '8-bit Gray',
0x0b => '16-bit Gray',
0x13 => '16-bit Gray Fixed Point',
0x3e => '16-bit Gray Half',
0x3f => '32-bit Gray Fixed Point',
0x11 => '32-bit Gray Float',
0x05 => 'Black & White',
0x09 => '16-bit BGR555',
0x0a => '16-bit BGR565',
0x13 => '32-bit BGR101010',
0x3d => '32-bit RGBE',
},
},
0xbc02 => { #13
Name => 'Transformation',
PrintConv => {
0 => 'Horizontal (normal)',
1 => 'Mirror vertical',
2 => 'Mirror horizontal',
3 => 'Rotate 180',
4 => 'Rotate 90 CW',
5 => 'Mirror horizontal and rotate 90 CW',
6 => 'Mirror horizontal and rotate 270 CW',
7 => 'Rotate 270 CW',
},
},
0xbc03 => { #13
Name => 'Uncompressed',
PrintConv => { 0 => 'No', 1 => 'Yes' },
},
0xbc04 => { #13
Name => 'ImageType',
PrintConv => { BITMASK => {
0 => 'Preview',
1 => 'Page',
} },
},
0xbc80 => 'ImageWidth', #13
0xbc81 => 'ImageHeight', #13
0xbc82 => 'WidthResolution', #13
0xbc83 => 'HeightResolution', #13
0xbcc0 => { #13
Name => 'ImageOffset',
IsOffset => 1,
OffsetPair => 0xbcc1, # point to associated byte count
},
0xbcc1 => { #13
Name => 'ImageByteCount',
OffsetPair => 0xbcc0, # point to associated offset
},
0xbcc2 => { #13
Name => 'AlphaOffset',
IsOffset => 1,
OffsetPair => 0xbcc3, # point to associated byte count
},
0xbcc3 => { #13
Name => 'AlphaByteCount',
OffsetPair => 0xbcc2, # point to associated offset
},
0xbcc4 => { #13
Name => 'ImageDataDiscard',
PrintConv => {
0 => 'Full Resolution',
1 => 'Flexbits Discarded',
2 => 'HighPass Frequency Data Discarded',
3 => 'Highpass and LowPass Frequency Data Discarded',
},
},
0xbcc5 => { #13
Name => 'AlphaDataDiscard',
PrintConv => {
0 => 'Full Resolution',
1 => 'Flexbits Discarded',
2 => 'HighPass Frequency Data Discarded',
3 => 'Highpass and LowPass Frequency Data Discarded',
},
},
#
0xc427 => 'OceScanjobDesc', #3
0xc428 => 'OceApplicationSelector', #3
0xc429 => 'OceIDNumber', #3
0xc42a => 'OceImageLogic', #3
0xc44f => { Name => 'Annotations', Binary => 1 }, #7/19
0xc4a5 => {
Name => 'PrintIM', # (writable directory!)
# must set Writable here so this tag will be saved with MakerNotes option
Writable => 'undef',
WriteGroup => 'IFD0',
Binary => 1,
# (don't make Binary/Protected because we can't copy individual PrintIM tags anyway)
Description => 'Print Image Matching',
SubDirectory => {
TagTable => 'Image::ExifTool::PrintIM::Main',
},
PrintConvInv => '$val =~ /^PrintIM/ ? $val : undef', # quick validation
},
0xc573 => { #PH
Name => 'OriginalFileName',
Notes => 'used by some obscure software', # (possibly Swizzy Photosmacker?)
# (it is a 'string', but obscure, so don't make it writable)
},
0xc580 => { #20
Name => 'USPTOOriginalContentType',
PrintConv => {
0 => 'Text or Drawing',
1 => 'Grayscale',
2 => 'Color',
},
},
# 0xc5d8 - found in CR2 images
# 0xc5d9 - found in CR2 images
0xc5e0 => { #forum8153 (CR2 images)
Name => 'CR2CFAPattern',
ValueConv => {
1 => '0 1 1 2',
2 => '2 1 1 0',
3 => '1 2 0 1',
4 => '1 0 2 1',
},
PrintConv => {
'0 1 1 2' => '[Red,Green][Green,Blue]',
'2 1 1 0' => '[Blue,Green][Green,Red]',
'1 2 0 1' => '[Green,Blue][Red,Green]',
'1 0 2 1' => '[Green,Red][Blue,Green]',
},
},
#
# DNG tags 0xc6XX and 0xc7XX (ref 2 unless otherwise stated)
#
0xc612 => {
Name => 'DNGVersion',
Notes => q{
tags 0xc612-0xc7b5 are defined by the DNG specification unless otherwise
noted. See L<https://helpx.adobe.com/photoshop/digital-negative.html> for
the specification
},
Writable => 'int8u',
WriteGroup => 'IFD0',
Count => 4,
Protected => 1, # (confuses Apple Preview if written to a TIFF image)
DataMember => 'DNGVersion',
RawConv => '$$self{DNGVersion} = $val',
PrintConv => '$val =~ tr/ /./; $val',
PrintConvInv => '$val =~ tr/./ /; $val',
},
0xc613 => {
Name => 'DNGBackwardVersion',
Writable => 'int8u',
WriteGroup => 'IFD0',
Count => 4,
Protected => 1,
PrintConv => '$val =~ tr/ /./; $val',
PrintConvInv => '$val =~ tr/./ /; $val',
},
0xc614 => {
Name => 'UniqueCameraModel',
Writable => 'string',
WriteGroup => 'IFD0',
},
0xc615 => {
Name => 'LocalizedCameraModel',
WriteGroup => 'IFD0',
%utf8StringConv,
PrintConv => '$self->Printable($val, 0)',
PrintConvInv => '$val',
},
0xc616 => {
Name => 'CFAPlaneColor',
WriteGroup => 'SubIFD', # (only for Validate)
PrintConv => q{
my @cols = qw(Red Green Blue Cyan Magenta Yellow White);
my @vals = map { $cols[$_] || "Unknown($_)" } split(' ', $val);
return join(',', @vals);
},
},
0xc617 => {
Name => 'CFALayout',
WriteGroup => 'SubIFD', # (only for Validate)
PrintConv => {
1 => 'Rectangular',
2 => 'Even columns offset down 1/2 row',
3 => 'Even columns offset up 1/2 row',
4 => 'Even rows offset right 1/2 column',
5 => 'Even rows offset left 1/2 column',
# the following are new for DNG 1.3:
6 => 'Even rows offset up by 1/2 row, even columns offset left by 1/2 column',
7 => 'Even rows offset up by 1/2 row, even columns offset right by 1/2 column',
8 => 'Even rows offset down by 1/2 row, even columns offset left by 1/2 column',
9 => 'Even rows offset down by 1/2 row, even columns offset right by 1/2 column',
},
},
0xc618 => {
Name => 'LinearizationTable',
Writable => 'int16u',
WriteGroup => 'SubIFD',
Count => -1,
Protected => 1,
Binary => 1,
},
0xc619 => {
Name => 'BlackLevelRepeatDim',
Writable => 'int16u',
WriteGroup => 'SubIFD',
Count => 2,
Protected => 1,
},
0xc61a => {
Name => 'BlackLevel',
Writable => 'rational64u',
WriteGroup => 'SubIFD',
Count => -1,
Protected => 1,
},
0xc61b => {
Name => 'BlackLevelDeltaH',
%longBin,
Writable => 'rational64s',
WriteGroup => 'SubIFD',
Count => -1,
Protected => 1,
},
0xc61c => {
Name => 'BlackLevelDeltaV',
%longBin,
Writable => 'rational64s',
WriteGroup => 'SubIFD',
Count => -1,
Protected => 1,
},
0xc61d => {
Name => 'WhiteLevel',
Writable => 'int32u',
WriteGroup => 'SubIFD',
Count => -1,
Protected => 1,
},
0xc61e => {
Name => 'DefaultScale',
Writable => 'rational64u',
WriteGroup => 'SubIFD',
Count => 2,
Protected => 1,
},
0xc61f => {
Name => 'DefaultCropOrigin',
Writable => 'int32u',
WriteGroup => 'SubIFD',
Count => 2,
Protected => 1,
},
0xc620 => {
Name => 'DefaultCropSize',
Writable => 'int32u',
WriteGroup => 'SubIFD',
Count => 2,
Protected => 1,
},
0xc621 => {
Name => 'ColorMatrix1',
Writable => 'rational64s',
WriteGroup => 'IFD0',
Count => -1,
Protected => 1,
},
0xc622 => {
Name => 'ColorMatrix2',
Writable => 'rational64s',
WriteGroup => 'IFD0',
Count => -1,
Protected => 1,
},
0xc623 => {
Name => 'CameraCalibration1',
Writable => 'rational64s',
WriteGroup => 'IFD0',
Count => -1,
Protected => 1,
},
0xc624 => {
Name => 'CameraCalibration2',
Writable => 'rational64s',
WriteGroup => 'IFD0',
Count => -1,
Protected => 1,
},
0xc625 => {
Name => 'ReductionMatrix1',
Writable => 'rational64s',
WriteGroup => 'IFD0',
Count => -1,
Protected => 1,
},
0xc626 => {
Name => 'ReductionMatrix2',
Writable => 'rational64s',
WriteGroup => 'IFD0',
Count => -1,
Protected => 1,
},
0xc627 => {
Name => 'AnalogBalance',
Writable => 'rational64u',
WriteGroup => 'IFD0',
Count => -1,
Protected => 1,
},
0xc628 => {
Name => 'AsShotNeutral',
Writable => 'rational64u',
WriteGroup => 'IFD0',
Count => -1,
Protected => 1,
},
0xc629 => {
Name => 'AsShotWhiteXY',
Writable => 'rational64u',
WriteGroup => 'IFD0',
Count => 2,
Protected => 1,
},
0xc62a => {
Name => 'BaselineExposure',
Writable => 'rational64s',
WriteGroup => 'IFD0',
Protected => 1,
},
0xc62b => {
Name => 'BaselineNoise',
Writable => 'rational64u',
WriteGroup => 'IFD0',
Protected => 1,
},
0xc62c => {
Name => 'BaselineSharpness',
Writable => 'rational64u',
WriteGroup => 'IFD0',
Protected => 1,
},
0xc62d => {
Name => 'BayerGreenSplit',
Writable => 'int32u',
WriteGroup => 'SubIFD',
Protected => 1,
},
0xc62e => {
Name => 'LinearResponseLimit',
Writable => 'rational64u',
WriteGroup => 'IFD0',
Protected => 1,
},
0xc62f => {
Name => 'CameraSerialNumber',
Groups => { 2 => 'Camera' },
Writable => 'string',
WriteGroup => 'IFD0',
},
0xc630 => {
Name => 'DNGLensInfo',
Groups => { 2 => 'Camera' },
Writable => 'rational64u',
WriteGroup => 'IFD0',
Count => 4,
PrintConv =>\&PrintLensInfo,
PrintConvInv => \&ConvertLensInfo,
},
0xc631 => {
Name => 'ChromaBlurRadius',
Writable => 'rational64u',
WriteGroup => 'SubIFD',
Protected => 1,
},
0xc632 => {
Name => 'AntiAliasStrength',
Writable => 'rational64u',
WriteGroup => 'SubIFD',
Protected => 1,
},
0xc633 => {
Name => 'ShadowScale',
Writable => 'rational64u',
WriteGroup => 'IFD0',
Protected => 1,
},
0xc634 => [
{
Condition => '$$self{TIFF_TYPE} =~ /^(ARW|SR2)$/',
Name => 'SR2Private',
Groups => { 1 => 'SR2' },
Flags => 'SubIFD',
Format => 'int32u',
# some utilites have problems unless this is int8u format:
# - Adobe Camera Raw 5.3 gives an error
# - Apple Preview 10.5.8 gets the wrong white balance
FixFormat => 'int8u', # (stupid Sony)
WriteGroup => 'IFD0', # (for Validate)
SubDirectory => {
DirName => 'SR2Private',
TagTable => 'Image::ExifTool::Sony::SR2Private',
Start => '$val',
},
},
{
Condition => '$$valPt =~ /^Adobe\0/',
Name => 'DNGAdobeData',
Flags => [ 'Binary', 'Protected' ],
Writable => 'undef', # (writable directory!) (to make it possible to delete this mess)
WriteGroup => 'IFD0',
NestedHtmlDump => 1,
SubDirectory => { TagTable => 'Image::ExifTool::DNG::AdobeData' },
Format => 'undef', # but written as int8u (change to undef for speed)
},
{
# Pentax/Samsung models that write AOC maker notes in JPG images:
# K-5,K-7,K-m,K-x,K-r,K10D,K20D,K100D,K110D,K200D,K2000,GX10,GX20
# (Note: the following expression also appears in WriteExif.pl)
Condition => q{
$$valPt =~ /^(PENTAX |SAMSUNG)\0/ and
$$self{Model} =~ /\b(K(-[57mrx]|(10|20|100|110|200)D|2000)|GX(10|20))\b/
},
Name => 'MakerNotePentax',
MakerNotes => 1, # (causes "MakerNotes header" to be identified in HtmlDump output)
Binary => 1,
WriteGroup => 'IFD0', # (for Validate)
# Note: Don't make this block-writable for a few reasons:
# 1) It would be dangerous (possibly confusing Pentax software)
# 2) It is a different format from the JPEG version of MakerNotePentax
# 3) It is converted to JPEG format by RebuildMakerNotes() when copying
SubDirectory => {
TagTable => 'Image::ExifTool::Pentax::Main',
Start => '$valuePtr + 10',
Base => '$start - 10',
ByteOrder => 'Unknown', # easier to do this than read byteorder word
},
Format => 'undef', # but written as int8u (change to undef for speed)
},
{
# must duplicate the above tag with a different name for more recent
# Pentax models which use the "PENTAX" instead of the "AOC" maker notes
# in JPG images (needed when copying maker notes from DNG to JPG)
Condition => '$$valPt =~ /^(PENTAX |SAMSUNG)\0/',
Name => 'MakerNotePentax5',
MakerNotes => 1,
Binary => 1,
WriteGroup => 'IFD0', # (for Validate)
SubDirectory => {
TagTable => 'Image::ExifTool::Pentax::Main',
Start => '$valuePtr + 10',
Base => '$start - 10',
ByteOrder => 'Unknown',
},
Format => 'undef',
},
{
Name => 'DNGPrivateData',
Flags => [ 'Binary', 'Protected' ],
Format => 'undef',
Writable => 'int8u',
WriteGroup => 'IFD0',
},
],
0xc635 => {
Name => 'MakerNoteSafety',
Writable => 'int16u',
WriteGroup => 'IFD0',
PrintConv => {
0 => 'Unsafe',
1 => 'Safe',
},
},
0xc640 => { #15
Name => 'RawImageSegmentation',
# (int16u[3], not writable)
Notes => q{
used in segmented Canon CR2 images. 3 numbers: 1. Number of segments minus
one; 2. Pixel width of segments except last; 3. Pixel width of last segment
},
},
0xc65a => {
Name => 'CalibrationIlluminant1',
Writable => 'int16u',
WriteGroup => 'IFD0',
Protected => 1,
SeparateTable => 'LightSource',
PrintConv => \%lightSource,
},
0xc65b => {
Name => 'CalibrationIlluminant2',
Writable => 'int16u',
WriteGroup => 'IFD0',
Protected => 1,
SeparateTable => 'LightSource',
PrintConv => \%lightSource,
},
0xc65c => {
Name => 'BestQualityScale',
Writable => 'rational64u',
WriteGroup => 'SubIFD',
Protected => 1,
},
0xc65d => {
Name => 'RawDataUniqueID',
Format => 'undef',
Writable => 'int8u',
WriteGroup => 'IFD0',
Count => 16,
Protected => 1,
ValueConv => 'uc(unpack("H*",$val))',
ValueConvInv => 'pack("H*", $val)',
},
0xc660 => { #3
Name => 'AliasLayerMetadata',
Notes => 'used by Alias Sketchbook Pro',
},
0xc68b => {
Name => 'OriginalRawFileName',
WriteGroup => 'IFD0',
Protected => 1,
%utf8StringConv,
},
0xc68c => {
Name => 'OriginalRawFileData', # (writable directory!)
Writable => 'undef', # must be defined here so tag will be extracted if specified
WriteGroup => 'IFD0',
Flags => [ 'Binary', 'Protected' ],
SubDirectory => {
TagTable => 'Image::ExifTool::DNG::OriginalRaw',
},
},
0xc68d => {
Name => 'ActiveArea',
Writable => 'int32u',
WriteGroup => 'SubIFD',
Count => 4,
Protected => 1,
},
0xc68e => {
Name => 'MaskedAreas',
Writable => 'int32u',
WriteGroup => 'SubIFD',
Count => -1,
Protected => 1,
},
0xc68f => {
Name => 'AsShotICCProfile', # (writable directory)
Binary => 1,
Writable => 'undef', # must be defined here so tag will be extracted if specified
WriteGroup => 'IFD0',
Protected => 1,
WriteCheck => q{
require Image::ExifTool::ICC_Profile;
return Image::ExifTool::ICC_Profile::ValidateICC(\$val);
},
SubDirectory => {
DirName => 'AsShotICCProfile',
TagTable => 'Image::ExifTool::ICC_Profile::Main',
},
},
0xc690 => {
Name => 'AsShotPreProfileMatrix',
Writable => 'rational64s',
WriteGroup => 'IFD0',
Count => -1,
Protected => 1,
},
0xc691 => {
Name => 'CurrentICCProfile', # (writable directory)
Binary => 1,
Writable => 'undef', # must be defined here so tag will be extracted if specified
SubDirectory => {
DirName => 'CurrentICCProfile',
TagTable => 'Image::ExifTool::ICC_Profile::Main',
},
Writable => 'undef',
WriteGroup => 'IFD0',
Protected => 1,
WriteCheck => q{
require Image::ExifTool::ICC_Profile;
return Image::ExifTool::ICC_Profile::ValidateICC(\$val);
},
},
0xc692 => {
Name => 'CurrentPreProfileMatrix',
Writable => 'rational64s',
WriteGroup => 'IFD0',
Count => -1,
Protected => 1,
},
0xc6bf => {
Name => 'ColorimetricReference',
Writable => 'int16u',
WriteGroup => 'IFD0',
Protected => 1,
},
0xc6c5 => { Name => 'SRawType', Description => 'SRaw Type', WriteGroup => 'IFD0' }, #exifprobe (CR2 proprietary)
0xc6d2 => { #JD (Panasonic DMC-TZ5)
# this text is UTF-8 encoded (hooray!) - PH (TZ5)
Name => 'PanasonicTitle',
Format => 'string', # written incorrectly as 'undef'
Notes => 'proprietary Panasonic tag used for baby/pet name, etc',
Writable => 'undef',
WriteGroup => 'IFD0',
# panasonic always records this tag (64 zero bytes),
# so ignore it unless it contains valid information
RawConv => 'length($val) ? $val : undef',
ValueConv => '$self->Decode($val, "UTF8")',
ValueConvInv => '$self->Encode($val,"UTF8")',
},
0xc6d3 => { #PH (Panasonic DMC-FS7)
Name => 'PanasonicTitle2',
Format => 'string', # written incorrectly as 'undef'
Notes => 'proprietary Panasonic tag used for baby/pet name with age',
Writable => 'undef',
WriteGroup => 'IFD0',
# panasonic always records this tag (128 zero bytes),
# so ignore it unless it contains valid information
RawConv => 'length($val) ? $val : undef',
ValueConv => '$self->Decode($val, "UTF8")',
ValueConvInv => '$self->Encode($val,"UTF8")',
},
# 0xc6dc - int32u[4]: found in CR2 images (PH, 7DmkIII)
# 0xc6dd - int16u[256]: found in CR2 images (PH, 5DmkIV)
0xc6f3 => {
Name => 'CameraCalibrationSig',
WriteGroup => 'IFD0',
Protected => 1,
%utf8StringConv,
},
0xc6f4 => {
Name => 'ProfileCalibrationSig',
WriteGroup => 'IFD0',
Protected => 1,
%utf8StringConv,
},
0xc6f5 => {
Name => 'ProfileIFD', # (ExtraCameraProfiles)
Groups => { 1 => 'ProfileIFD' },
Flags => 'SubIFD',
WriteGroup => 'IFD0', # (only for Validate)
SubDirectory => {
ProcessProc => \&ProcessTiffIFD,
WriteProc => \&ProcessTiffIFD,
DirName => 'ProfileIFD',
Start => '$val',
Base => '$start', # offsets relative to start of TIFF-like header
MaxSubdirs => 10,
Magic => 0x4352, # magic number for TIFF-like header
},
},
0xc6f6 => {
Name => 'AsShotProfileName',
WriteGroup => 'IFD0',
Protected => 1,
%utf8StringConv,
},
0xc6f7 => {
Name => 'NoiseReductionApplied',
Writable => 'rational64u',
WriteGroup => 'SubIFD',
Protected => 1,
},
0xc6f8 => {
Name => 'ProfileName',
WriteGroup => 'IFD0',
Protected => 1,
%utf8StringConv,
},
0xc6f9 => {
Name => 'ProfileHueSatMapDims',
Writable => 'int32u',
WriteGroup => 'IFD0',
Count => 3,
Protected => 1,
},
0xc6fa => {
Name => 'ProfileHueSatMapData1',
%longBin,
Writable => 'float',
WriteGroup => 'IFD0',
Count => -1,
Protected => 1,
},
0xc6fb => {
Name => 'ProfileHueSatMapData2',
%longBin,
Writable => 'float',
WriteGroup => 'IFD0',
Count => -1,
Protected => 1,
},
0xc6fc => {
Name => 'ProfileToneCurve',
Writable => 'float',
WriteGroup => 'IFD0',
Count => -1,
Protected => 1,
Binary => 1,
},
0xc6fd => {
Name => 'ProfileEmbedPolicy',
Writable => 'int32u',
WriteGroup => 'IFD0',
Protected => 1,
PrintConv => {
0 => 'Allow Copying',
1 => 'Embed if Used',
2 => 'Never Embed',
3 => 'No Restrictions',
},
},
0xc6fe => {
Name => 'ProfileCopyright',
WriteGroup => 'IFD0',
Protected => 1,
%utf8StringConv,
},
0xc714 => {
Name => 'ForwardMatrix1',
Writable => 'rational64s',
WriteGroup => 'IFD0',
Count => -1,
Protected => 1,
},
0xc715 => {
Name => 'ForwardMatrix2',
Writable => 'rational64s',
WriteGroup => 'IFD0',
Count => -1,
Protected => 1,
},
0xc716 => {
Name => 'PreviewApplicationName',
WriteGroup => 'IFD0',
Protected => 1,
%utf8StringConv,
},
0xc717 => {
Name => 'PreviewApplicationVersion',
Writable => 'string',
WriteGroup => 'IFD0',
Protected => 1,
%utf8StringConv,
},
0xc718 => {
Name => 'PreviewSettingsName',
Writable => 'string',
WriteGroup => 'IFD0',
Protected => 1,
%utf8StringConv,
},
0xc719 => {
Name => 'PreviewSettingsDigest',
Format => 'undef',
Writable => 'int8u',
WriteGroup => 'IFD0',
Protected => 1,
ValueConv => 'unpack("H*", $val)',
ValueConvInv => 'pack("H*", $val)',
},
0xc71a => {
Name => 'PreviewColorSpace',
Writable => 'int32u',
WriteGroup => 'IFD0',
Protected => 1,
PrintConv => {
0 => 'Unknown',
1 => 'Gray Gamma 2.2',
2 => 'sRGB',
3 => 'Adobe RGB',
4 => 'ProPhoto RGB',
},
},
0xc71b => {
Name => 'PreviewDateTime',
Groups => { 2 => 'Time' },
Writable => 'string',
Shift => 'Time',
WriteGroup => 'IFD0',
Protected => 1,
ValueConv => q{
require Image::ExifTool::XMP;
return Image::ExifTool::XMP::ConvertXMPDate($val);
},
ValueConvInv => q{
require Image::ExifTool::XMP;
return Image::ExifTool::XMP::FormatXMPDate($val);
},
PrintConv => '$self->ConvertDateTime($val)',
PrintConvInv => '$self->InverseDateTime($val,1,1)',
},
0xc71c => {
Name => 'RawImageDigest',
Format => 'undef',
Writable => 'int8u',
WriteGroup => 'IFD0',
Count => 16,
Protected => 1,
ValueConv => 'unpack("H*", $val)',
ValueConvInv => 'pack("H*", $val)',
},
0xc71d => {
Name => 'OriginalRawFileDigest',
Format => 'undef',
Writable => 'int8u',
WriteGroup => 'IFD0',
Count => 16,
Protected => 1,
ValueConv => 'unpack("H*", $val)',
ValueConvInv => 'pack("H*", $val)',
},
0xc71e => 'SubTileBlockSize',
0xc71f => 'RowInterleaveFactor',
0xc725 => {
Name => 'ProfileLookTableDims',
Writable => 'int32u',
WriteGroup => 'IFD0',
Count => 3,
Protected => 1,
},
0xc726 => {
Name => 'ProfileLookTableData',
Writable => 'float',
WriteGroup => 'IFD0',
Count => -1,
Protected => 1,
Binary => 1,
},
0xc740 => { # DNG 1.3
Name => 'OpcodeList1',
Writable => 'undef',
WriteGroup => 'SubIFD',
Protected => 1,
Binary => 1,
# opcodes:
# 1 => 'WarpRectilinear',
# 2 => 'WarpFisheye',
# 3 => 'FixVignetteRadial',
# 4 => 'FixBadPixelsConstant',
# 5 => 'FixBadPixelsList',
# 6 => 'TrimBounds',
# 7 => 'MapTable',
# 8 => 'MapPolynomial',
# 9 => 'GainMap',
# 10 => 'DeltaPerRow',
# 11 => 'DeltaPerColumn',
# 12 => 'ScalePerRow',
# 13 => 'ScalePerColumn',
},
0xc741 => { # DNG 1.3
Name => 'OpcodeList2',
Writable => 'undef',
WriteGroup => 'SubIFD',
Protected => 1,
Binary => 1,
},
0xc74e => { # DNG 1.3
Name => 'OpcodeList3',
Writable => 'undef',
WriteGroup => 'SubIFD',
Protected => 1,
Binary => 1,
},
0xc761 => { # DNG 1.3
Name => 'NoiseProfile',
Writable => 'double',
WriteGroup => 'SubIFD',
Count => -1,
Protected => 1,
},
0xc763 => { #28
Name => 'TimeCodes',
Writable => 'int8u',
WriteGroup => 'IFD0',
Count => -1, # (8 * number of time codes, max 10)
ValueConv => q{
my @a = split ' ', $val;
my @v;
push @v, join('.', map { sprintf('%.2x',$_) } splice(@a,0,8)) while @a >= 8;
join ' ', @v;
},
ValueConvInv => q{
my @a = map hex, split /[. ]+/, $val;
join ' ', @a;
},
# Note: Currently ignore the flags:
# byte 0 0x80 - color frame
# byte 0 0x40 - drop frame
# byte 1 0x80 - field phase
PrintConv => q{
my @a = map hex, split /[. ]+/, $val;
my @v;
while (@a >= 8) {
my $str = sprintf("%.2x:%.2x:%.2x.%.2x", $a[3]&0x3f,
$a[2]&0x7f, $a[1]&0x7f, $a[0]&0x3f);
if ($a[3] & 0x80) { # date+timezone exist if BGF2 is set
my $tz = $a[7] & 0x3f;
my $bz = sprintf('%.2x', $tz);
$bz = 100 if $bz =~ /[a-f]/i; # not BCD
if ($bz < 26) {
$tz = ($bz < 13 ? 0 : 26) - $bz;
} elsif ($bz == 32) {
$tz = 12.75;
} elsif ($bz >= 28 and $bz <= 31) {
$tz = 0; # UTC
} elsif ($bz < 100) {
undef $tz; # undefined or user-defined
} elsif ($tz < 0x20) {
$tz = (($tz < 0x10 ? 10 : 20) - $tz) - 0.5;
} else {
$tz = (($tz < 0x30 ? 53 : 63) - $tz) + 0.5;
}
if ($a[7] & 0x80) { # MJD format (/w UTC time)
my ($h,$m,$s,$f) = split /[:.]/, $str;
my $jday = sprintf('%x%.2x%.2x', reverse @a[4..6]);
$str = ConvertUnixTime(($jday - 40587) * 24 * 3600
+ ((($h+$tz) * 60) + $m) * 60 + $s) . ".$f";
$str =~ s/^(\d+):(\d+):(\d+) /$1-$2-${3}T/;
} else { # YYMMDD (Note: CinemaDNG 1.1 example seems wrong)
my $yr = sprintf('%.2x',$a[6]) + 1900;
$yr += 100 if $yr < 1970;
$str = sprintf('%d-%.2x-%.2xT%s',$yr,$a[5],$a[4],$str);
}
$str .= TimeZoneString($tz*60) if defined $tz;
}
push @v, $str;
splice @a, 0, 8;
}
join ' ', @v;
},
PrintConvInv => q{
my @a = split ' ', $val;
my @v;
foreach (@a) {
my @td = reverse split /T/;
my $tz = 0x39; # default to unknown timezone
if ($td[0] =~ s/([-+])(\d+):(\d+)$//) {
if ($3 == 0) {
$tz = hex(($1 eq '-') ? $2 : 0x26 - $2);
} elsif ($3 == 30) {
if ($1 eq '-') {
$tz = $2 + 0x0a;
$tz += 0x0a if $tz > 0x0f;
} else {
$tz = 0x3f - $2;
$tz -= 0x0a if $tz < 0x3a;
}
} elsif ($3 == 45) {
$tz = 0x32 if $1 eq '+' and $2 == 12;
}
}
my @t = split /[:.]/, $td[0];
push @t, '00' while @t < 4;
my $bg;
if ($td[1]) {
# date was specified: fill in date & timezone
my @d = split /[-]/, $td[1];
next if @d < 3;
$bg = sprintf('.%.2d.%.2d.%.2d.%.2x', $d[2], $d[1], $d[0]%100, $tz);
$t[0] = sprintf('%.2x', hex($t[0]) + 0xc0); # set BGF1+BGF2
} else { # time only
$bg = '.00.00.00.00';
}
push @v, join('.', reverse(@t[0..3])) . $bg;
}
join ' ', @v;
},
},
0xc764 => { #28
Name => 'FrameRate',
Writable => 'rational64s',
WriteGroup => 'IFD0',
PrintConv => 'int($val * 1000 + 0.5) / 1000',
PrintConvInv => '$val',
},
0xc772 => { #28
Name => 'TStop',
Writable => 'rational64u',
WriteGroup => 'IFD0',
Count => -1, # (1 or 2)
PrintConv => 'join("-", map { sprintf("%.2f",$_) } split " ", $val)',
PrintConvInv => '$val=~tr/-/ /; $val',
},
0xc789 => { #28
Name => 'ReelName',
Writable => 'string',
WriteGroup => 'IFD0',
},
0xc791 => { # DNG 1.4
Name => 'OriginalDefaultFinalSize',
Writable => 'int32u',
WriteGroup => 'IFD0',
Count => 2,
Protected => 1,
},
0xc792 => { # DNG 1.4
Name => 'OriginalBestQualitySize',
Notes => 'called OriginalBestQualityFinalSize by the DNG spec',
Writable => 'int32u',
WriteGroup => 'IFD0',
Count => 2,
Protected => 1,
},
0xc793 => { # DNG 1.4
Name => 'OriginalDefaultCropSize',
Writable => 'rational64u',
WriteGroup => 'IFD0',
Count => 2,
Protected => 1,
},
0xc7a1 => { #28
Name => 'CameraLabel',
Writable => 'string',
WriteGroup => 'IFD0',
},
0xc7a3 => { # DNG 1.4
Name => 'ProfileHueSatMapEncoding',
Writable => 'int32u',
WriteGroup => 'IFD0',
Protected => 1,
PrintConv => {
0 => 'Linear',
1 => 'sRGB',
},
},
0xc7a4 => { # DNG 1.4
Name => 'ProfileLookTableEncoding',
Writable => 'int32u',
WriteGroup => 'IFD0',
Protected => 1,
PrintConv => {
0 => 'Linear',
1 => 'sRGB',
},
},
0xc7a5 => { # DNG 1.4
Name => 'BaselineExposureOffset',
Writable => 'rational64s', # (incorrectly "RATIONAL" in DNG 1.4 spec)
WriteGroup => 'IFD0',
Protected => 1,
},
0xc7a6 => { # DNG 1.4
Name => 'DefaultBlackRender',
Writable => 'int32u',
WriteGroup => 'IFD0',
Protected => 1,
PrintConv => {
0 => 'Auto',
1 => 'None',
},
},
0xc7a7 => { # DNG 1.4
Name => 'NewRawImageDigest',
Format => 'undef',
Writable => 'int8u',
WriteGroup => 'IFD0',
Count => 16,
Protected => 1,
ValueConv => 'unpack("H*", $val)',
ValueConvInv => 'pack("H*", $val)',
},
0xc7a8 => { # DNG 1.4
Name => 'RawToPreviewGain',
Writable => 'double',
WriteGroup => 'IFD0',
Protected => 1,
},
# 0xc7a9 - CacheBlob (ref 31)
0xc7aa => { #31 undocumented DNG tag written by LR4 (val=256, related to fast load data?)
Name => 'CacheVersion',
Writable => 'int32u',
WriteGroup => 'SubIFD2',
Format => 'int8u',
Count => 4,
Protected => 1,
PrintConv => '$val =~ tr/ /./; $val',
PrintConvInv => '$val =~ tr/./ /; $val',
},
0xc7b5 => { # DNG 1.4
Name => 'DefaultUserCrop',
Writable => 'rational64u',
WriteGroup => 'SubIFD',
Count => 4,
Protected => 1,
},
0xea1c => { #13
Name => 'Padding',
Binary => 1,
Protected => 1,
Writable => 'undef',
# must start with 0x1c 0xea by the WM Photo specification
# (not sure what should happen if padding is only 1 byte)
# (why does MicrosoftPhoto write "1c ea 00 00 00 08"?)
RawConvInv => '$val=~s/^../\x1c\xea/s; $val',
},
0xea1d => {
Name => 'OffsetSchema',
Notes => "Microsoft's ill-conceived maker note offset difference",
Protected => 1,
Writable => 'int32s',
# From the Microsoft documentation:
#
# Any time the "Maker Note" is relocated by Windows, the Exif MakerNote
# tag (37500) is updated automatically to reference the new location. In
# addition, Windows records the offset (or difference) between the old and
# new locations in the Exif OffsetSchema tag (59933). If the "Maker Note"
# contains relative references, the developer can add the value in
# OffsetSchema to the original references to find the correct information.
#
# My recommendation is for other developers to ignore this tag because the
# information it contains is unreliable. It will be wrong if the image has
# been subsequently edited by another application that doesn't recognize the
# new Microsoft tag.
#
# The new tag unfortunately only gives the difference between the new maker
# note offset and the original offset. Instead, it should have been designed
# to store the original offset. The new offset may change if the image is
# edited, which will invalidate the tag as currently written. If instead the
# original offset had been stored, the new difference could be easily
# calculated because the new maker note offset is known.
#
# I exchanged emails with a Microsoft technical representative, pointing out
# this problem shortly after they released the update (Feb 2007), but so far
# they have taken no steps to address this.
},
# 0xefee - int16u: 0 - seen this from a WIC-scanned image
# tags in the range 0xfde8-0xfe58 have been observed in PS7 files
# generated from RAW images. They are all strings with the
# tag name at the start of the string. To accomodate these types
# of tags, all tags with values above 0xf000 are handled specially
# by ProcessExif().
0xfde8 => {
Name => 'OwnerName',
Condition => '$$self{TIFF_TYPE} ne "DCR"', # (used for another purpose in Kodak DCR images)
Avoid => 1,
PSRaw => 1,
Writable => 'string',
ValueConv => '$val=~s/^.*: //;$val',
ValueConvInv => q{"Owner's Name: $val"},
Notes => q{
tags 0xfde8-0xfdea and 0xfe4c-0xfe58 are generated by Photoshop Camera RAW.
Some names are the same as other EXIF tags, but ExifTool will avoid writing
these unless they already exist in the file
},
},
0xfde9 => {
Name => 'SerialNumber',
Condition => '$$self{TIFF_TYPE} ne "DCR"', # (used for another purpose in Kodak DCR SubIFD)
Avoid => 1,
PSRaw => 1,
Writable => 'string',
ValueConv => '$val=~s/^.*: //;$val',
ValueConvInv => q{"Serial Number: $val"},
},
0xfdea => {
Name => 'Lens',
Condition => '$$self{TIFF_TYPE} ne "DCR"', # (used for another purpose in Kodak DCR SubIFD)
Avoid => 1,
PSRaw => 1,
Writable => 'string',
ValueConv => '$val=~s/^.*: //;$val',
ValueConvInv => q{"Lens: $val"},
},
0xfe4c => {
Name => 'RawFile',
Avoid => 1,
PSRaw => 1,
Writable => 'string',
ValueConv => '$val=~s/^.*: //;$val',
ValueConvInv => q{"Raw File: $val"},
},
0xfe4d => {
Name => 'Converter',
Avoid => 1,
PSRaw => 1,
Writable => 'string',
ValueConv => '$val=~s/^.*: //;$val',
ValueConvInv => q{"Converter: $val"},
},
0xfe4e => {
Name => 'WhiteBalance',
Avoid => 1,
PSRaw => 1,
Writable => 'string',
ValueConv => '$val=~s/^.*: //;$val',
ValueConvInv => q{"White Balance: $val"},
},
0xfe51 => {
Name => 'Exposure',
Avoid => 1,
PSRaw => 1,
Writable => 'string',
ValueConv => '$val=~s/^.*: //;$val',
ValueConvInv => q{"Exposure: $val"},
},
0xfe52 => {
Name => 'Shadows',
Avoid => 1,
PSRaw => 1,
Writable => 'string',
ValueConv => '$val=~s/^.*: //;$val',
ValueConvInv => q{"Shadows: $val"},
},
0xfe53 => {
Name => 'Brightness',
Avoid => 1,
PSRaw => 1,
Writable => 'string',
ValueConv => '$val=~s/^.*: //;$val',
ValueConvInv => q{"Brightness: $val"},
},
0xfe54 => {
Name => 'Contrast',
Avoid => 1,
PSRaw => 1,
Writable => 'string',
ValueConv => '$val=~s/^.*: //;$val',
ValueConvInv => q{"Contrast: $val"},
},
0xfe55 => {
Name => 'Saturation',
Avoid => 1,
PSRaw => 1,
Writable => 'string',
ValueConv => '$val=~s/^.*: //;$val',
ValueConvInv => q{"Saturation: $val"},
},
0xfe56 => {
Name => 'Sharpness',
Avoid => 1,
PSRaw => 1,
Writable => 'string',
ValueConv => '$val=~s/^.*: //;$val',
ValueConvInv => q{"Sharpness: $val"},
},
0xfe57 => {
Name => 'Smoothness',
Avoid => 1,
PSRaw => 1,
Writable => 'string',
ValueConv => '$val=~s/^.*: //;$val',
ValueConvInv => q{"Smoothness: $val"},
},
0xfe58 => {
Name => 'MoireFilter',
Avoid => 1,
PSRaw => 1,
Writable => 'string',
ValueConv => '$val=~s/^.*: //;$val',
ValueConvInv => q{"Moire Filter: $val"},
},
#-------------
0xfe00 => {
Name => 'KDC_IFD',
Groups => { 1 => 'KDC_IFD' },
Flags => 'SubIFD',
Notes => 'used in some Kodak KDC images',
SubDirectory => {
TagTable => 'Image::ExifTool::Kodak::KDC_IFD',
DirName => 'KDC_IFD',
Start => '$val',
},
},
);
# conversions for Composite SubSec date/time tags
my %subSecConv = (
# @val array: 0) date/time, 1) sub-seconds, 2) time zone offset
RawConv => q{
my $v;
if (defined $val[1] and $val[1]=~/^(\d+)/) {
my $subSec = $1;
# be careful here just in case the time already contains a timezone (contrary to spec)
undef $v unless ($v = $val[0]) =~ s/( \d{2}:\d{2}:\d{2})/$1\.$subSec/;
}
if (defined $val[2] and $val[0]!~/[-+]/ and $val[2]=~/^([-+])(\d{1,2}):(\d{2})/) {
$v = ($v || $val[0]) . sprintf('%s%.2d:%.2d', $1, $2, $3);
}
return $v;
},
PrintConv => '$self->ConvertDateTime($val)',
PrintConvInv => '$self->InverseDateTime($val)',
);
# EXIF Composite tags (plus other more general Composite tags)
%Image::ExifTool::Exif::Composite = (
GROUPS => { 2 => 'Image' },
ImageSize => {
Require => {
0 => 'ImageWidth',
1 => 'ImageHeight',
},
Desire => {
2 => 'ExifImageWidth',
3 => 'ExifImageHeight',
},
# use ExifImageWidth/Height only for Canon and Phase One TIFF-base RAW images
ValueConv => q{
return "$val[2]x$val[3]" if $val[2] and $val[3] and
$$self{TIFF_TYPE} =~ /^(CR2|Canon 1D RAW|IIQ|EIP)$/;
return "$val[0]x$val[1]" if IsFloat($val[0]) and IsFloat($val[1]);
return undef;
},
},
Megapixels => {
Require => 'ImageSize',
ValueConv => 'my @d = ($val =~ /\d+/g); $d[0] * $d[1] / 1000000',
PrintConv => 'sprintf("%.*f", ($val >= 1 ? 1 : ($val >= 0.001 ? 3 : 6)), $val)',
},
# pick the best shutter speed value
ShutterSpeed => {
Desire => {
0 => 'ExposureTime',
1 => 'ShutterSpeedValue',
2 => 'BulbDuration',
},
ValueConv => '($val[2] and $val[2]>0) ? $val[2] : (defined($val[0]) ? $val[0] : $val[1])',
PrintConv => 'Image::ExifTool::Exif::PrintExposureTime($val)',
},
Aperture => {
Desire => {
0 => 'FNumber',
1 => 'ApertureValue',
},
RawConv => '($val[0] || $val[1]) ? $val : undef',
ValueConv => '$val[0] || $val[1]',
PrintConv => 'Image::ExifTool::Exif::PrintFNumber($val)',
},
LightValue => {
Notes => q{
calculated LV = 2 * log2(Aperture) - log2(ShutterSpeed) - log2(ISO/100);
similar to exposure value but normalized to ISO 100
},
Require => {
0 => 'Aperture',
1 => 'ShutterSpeed',
2 => 'ISO',
},
ValueConv => 'Image::ExifTool::Exif::CalculateLV($val[0],$val[1],$prt[2])',
PrintConv => 'sprintf("%.1f",$val)',
},
FocalLength35efl => { #26/PH
Description => 'Focal Length',
Notes => 'this value may be incorrect if the image has been resized',
Groups => { 2 => 'Camera' },
Require => {
0 => 'FocalLength',
},
Desire => {
1 => 'ScaleFactor35efl',
},
ValueConv => 'ToFloat(@val); ($val[0] || 0) * ($val[1] || 1)',
PrintConv => '$val[1] ? sprintf("%.1f mm (35 mm equivalent: %.1f mm)", $val[0], $val) : sprintf("%.1f mm", $val)',
},
ScaleFactor35efl => { #26/PH
Description => 'Scale Factor To 35 mm Equivalent',
Notes => q{
this value and any derived values may be incorrect if the image has been
resized
},
Groups => { 2 => 'Camera' },
Desire => {
0 => 'FocalLength',
1 => 'FocalLengthIn35mmFormat',
2 => 'Composite:DigitalZoom',
3 => 'FocalPlaneDiagonal',
4 => 'SensorSize',
5 => 'FocalPlaneXSize',
6 => 'FocalPlaneYSize',
7 => 'FocalPlaneResolutionUnit',
8 => 'FocalPlaneXResolution',
9 => 'FocalPlaneYResolution',
10 => 'ExifImageWidth',
11 => 'ExifImageHeight',
12 => 'CanonImageWidth',
13 => 'CanonImageHeight',
14 => 'ImageWidth',
15 => 'ImageHeight',
},
ValueConv => 'Image::ExifTool::Exif::CalcScaleFactor35efl($self, @val)',
PrintConv => 'sprintf("%.1f", $val)',
},
CircleOfConfusion => {
Notes => q{
calculated as D/1440, where D is the focal plane diagonal in mm. This value
may be incorrect if the image has been resized
},
Groups => { 2 => 'Camera' },
Require => 'ScaleFactor35efl',
ValueConv => 'sqrt(24*24+36*36) / ($val * 1440)',
PrintConv => 'sprintf("%.3f mm",$val)',
},
HyperfocalDistance => {
Notes => 'this value may be incorrect if the image has been resized',
Groups => { 2 => 'Camera' },
Require => {
0 => 'FocalLength',
1 => 'Aperture',
2 => 'CircleOfConfusion',
},
ValueConv => q{
ToFloat(@val);
return 'inf' unless $val[1] and $val[2];
return $val[0] * $val[0] / ($val[1] * $val[2] * 1000);
},
PrintConv => 'sprintf("%.2f m", $val)',
},
DOF => {
Description => 'Depth Of Field',
Notes => 'this value may be incorrect if the image has been resized',
Require => {
0 => 'FocalLength',
1 => 'Aperture',
2 => 'CircleOfConfusion',
},
Desire => {
3 => 'FocusDistance', # focus distance in metres (0 is infinity)
4 => 'SubjectDistance',
5 => 'ObjectDistance',
6 => 'ApproximateFocusDistance',
7 => 'FocusDistanceLower',
8 => 'FocusDistanceUpper',
},
ValueConv => q{
ToFloat(@val);
my ($d, $f) = ($val[3], $val[0]);
if (defined $d) {
$d or $d = 1e10; # (use large number for infinity)
} else {
$d = $val[4] || $val[5] || $val[6];
unless (defined $d) {
return undef unless defined $val[7] and defined $val[8];
$d = ($val[7] + $val[8]) / 2;
}
}
return 0 unless $f and $val[2];
my $t = $val[1] * $val[2] * ($d * 1000 - $f) / ($f * $f);
my @v = ($d / (1 + $t), $d / (1 - $t));
$v[1] < 0 and $v[1] = 0; # 0 means 'inf'
return join(' ',@v);
},
PrintConv => q{
$val =~ tr/,/./; # in case locale is whacky
my @v = split ' ', $val;
$v[1] or return sprintf("inf (%.2f m - inf)", $v[0]);
my $dof = $v[1] - $v[0];
my $fmt = ($dof>0 and $dof<0.02) ? "%.3f" : "%.2f";
return sprintf("$fmt m ($fmt - $fmt m)",$dof,$v[0],$v[1]);
},
},
FOV => {
Description => 'Field Of View',
Notes => q{
calculated for the long image dimension. This value may be incorrect for
fisheye lenses, or if the image has been resized
},
Require => {
0 => 'FocalLength',
1 => 'ScaleFactor35efl',
},
Desire => {
2 => 'FocusDistance', # (multiply by 1000 to convert to mm)
},
# ref http://www.bobatkins.com/photography/technical/field_of_view.html
# (calculations below apply to rectilinear lenses only, not fisheye)
ValueConv => q{
ToFloat(@val);
return undef unless $val[0] and $val[1];
my $corr = 1;
if ($val[2]) {
my $d = 1000 * $val[2] - $val[0];
$corr += $val[0]/$d if $d > 0;
}
my $fd2 = atan2(36, 2*$val[0]*$val[1]*$corr);
my @fov = ( $fd2 * 360 / 3.14159 );
if ($val[2] and $val[2] > 0 and $val[2] < 10000) {
push @fov, 2 * $val[2] * sin($fd2) / cos($fd2);
}
return join(' ', @fov);
},
PrintConv => q{
my @v = split(' ',$val);
my $str = sprintf("%.1f deg", $v[0]);
$str .= sprintf(" (%.2f m)", $v[1]) if $v[1];
return $str;
},
},
# generate DateTimeOriginal from Date and Time Created if not extracted already
DateTimeOriginal => {
Condition => 'not defined $$self{VALUE}{DateTimeOriginal}',
Description => 'Date/Time Original',
Groups => { 2 => 'Time' },
Desire => {
0 => 'DateTimeCreated',
1 => 'DateCreated',
2 => 'TimeCreated',
},
RawConv => '($val[1] and $val[2]) ? $val : undef',
ValueConv => q{
return $val[0] if $val[0] and $val[0]=~/ /;
return "$val[1] $val[2]";
},
PrintConv => '$self->ConvertDateTime($val)',
},
ThumbnailImage => {
Groups => { 0 => 'EXIF', 1 => 'IFD1', 2 => 'Preview' },
Writable => 1,
WriteGroup => 'All',
WriteCheck => '$self->CheckImage(\$val)',
WriteAlso => {
# (the 0xfeedfeed values are translated in the Exif write routine)
ThumbnailOffset => 'defined $val ? 0xfeedfeed : undef',
ThumbnailLength => 'defined $val ? 0xfeedfeed : undef',
},
Require => {
0 => 'ThumbnailOffset',
1 => 'ThumbnailLength',
},
Notes => q{
this tag is writable, and may be used to update existing thumbnails, but may
only create a thumbnail in IFD1 of certain types of files. Note that for
this and other Composite embedded-image tags the family 0 and 1 groups match
those of the originating tags
},
# retrieve the thumbnail from our EXIF data
RawConv => q{
@grps = $self->GetGroup($$val{0}); # set groups from ThumbnailOffsets
Image::ExifTool::Exif::ExtractImage($self,$val[0],$val[1],"ThumbnailImage");
},
},
ThumbnailTIFF => {
Groups => { 2 => 'Preview' },
Require => {
0 => 'SubfileType',
1 => 'Compression',
2 => 'ImageWidth',
3 => 'ImageHeight',
4 => 'BitsPerSample',
5 => 'PhotometricInterpretation',
6 => 'StripOffsets',
7 => 'SamplesPerPixel',
8 => 'RowsPerStrip',
9 => 'StripByteCounts',
},
Desire => {
10 => 'PlanarConfiguration',
11 => 'Orientation',
},
# rebuild the TIFF thumbnail from our EXIF data
RawConv => q{
my $tiff;
($tiff, @grps) = Image::ExifTool::Exif::RebuildTIFF($self, @val);
return $tiff;
},
},
PreviewImage => {
Groups => { 0 => 'EXIF', 1 => 'SubIFD', 2 => 'Preview' },
Writable => 1,
WriteGroup => 'All',
WriteCheck => '$self->CheckImage(\$val)',
DelCheck => '$val = ""; return undef', # can't delete, so set to empty string
WriteAlso => {
PreviewImageStart => 'defined $val ? 0xfeedfeed : undef',
PreviewImageLength => 'defined $val ? 0xfeedfeed : undef',
PreviewImageValid => 'defined $val and length $val ? 1 : 0', # (for Olympus)
},
Require => {
0 => 'PreviewImageStart',
1 => 'PreviewImageLength',
},
Desire => {
2 => 'PreviewImageValid',
# (DNG and A100 ARW may be have 2 preview images)
3 => 'PreviewImageStart (1)',
4 => 'PreviewImageLength (1)',
},
Notes => q{
this tag is writable, and may be used to update existing embedded images,
but not create or delete them
},
# note: extract 2nd preview, but ignore double-referenced preview
# (in A100 ARW images, the 2nd PreviewImageLength from IFD0 may be wrong anyway)
RawConv => q{
if ($val[3] and $val[4] and $val[0] ne $val[3]) {
my %val = (
0 => 'PreviewImageStart (1)',
1 => 'PreviewImageLength (1)',
2 => 'PreviewImageValid',
);
$self->FoundTag($tagInfo, \%val);
}
return undef if defined $val[2] and not $val[2];
@grps = $self->GetGroup($$val{0});
return Image::ExifTool::Exif::ExtractImage($self,$val[0],$val[1],'PreviewImage');
},
},
JpgFromRaw => {
Groups => { 0 => 'EXIF', 1 => 'SubIFD', 2 => 'Preview' },
Writable => 1,
WriteGroup => 'All',
WriteCheck => '$self->CheckImage(\$val)',
# Note: ExifTool 10.38 had disabled the ability to delete this -- why?
# --> added the DelCheck in 10.61 to re-enable this
DelCheck => '$val = ""; return undef', # can't delete, so set to empty string
WriteAlso => {
JpgFromRawStart => 'defined $val ? 0xfeedfeed : undef',
JpgFromRawLength => 'defined $val ? 0xfeedfeed : undef',
},
Require => {
0 => 'JpgFromRawStart',
1 => 'JpgFromRawLength',
},
Notes => q{
this tag is writable, and may be used to update existing embedded images,
but not create or delete them
},
RawConv => q{
@grps = $self->GetGroup($$val{0});
return Image::ExifTool::Exif::ExtractImage($self,$val[0],$val[1],"JpgFromRaw");
},
},
OtherImage => {
Groups => { 0 => 'EXIF', 1 => 'SubIFD', 2 => 'Preview' },
Writable => 1,
WriteGroup => 'All',
WriteCheck => '$self->CheckImage(\$val)',
DelCheck => '$val = ""; return undef', # can't delete, so set to empty string
WriteAlso => {
OtherImageStart => 'defined $val ? 0xfeedfeed : undef',
OtherImageLength => 'defined $val ? 0xfeedfeed : undef',
},
Require => {
0 => 'OtherImageStart',
1 => 'OtherImageLength',
},
Notes => q{
this tag is writable, and may be used to update existing embedded images,
but not create or delete them
},
# retrieve the thumbnail from our EXIF data
RawConv => q{
@grps = $self->GetGroup($$val{0});
Image::ExifTool::Exif::ExtractImage($self,$val[0],$val[1],"OtherImage");
},
},
PreviewImageSize => {
Require => {
0 => 'PreviewImageWidth',
1 => 'PreviewImageHeight',
},
ValueConv => '"$val[0]x$val[1]"',
},
SubSecDateTimeOriginal => {
Description => 'Date/Time Original',
Groups => { 2 => 'Time' },
Writable => 1,
Shift => 0, # don't shift this tag
Require => {
0 => 'EXIF:DateTimeOriginal',
},
Desire => {
1 => 'SubSecTimeOriginal',
2 => 'OffsetTimeOriginal',
},
WriteAlso => {
'EXIF:DateTimeOriginal' => '($val and $val=~/^(\d{4}:\d{2}:\d{2} \d{2}:\d{2}:\d{2})/) ? $1 : undef',
'EXIF:SubSecTimeOriginal' => '($val and $val=~/\.(\d+)/) ? $1 : undef',
'EXIF:OffsetTimeOriginal' => '($val and $val=~/([-+]\d{2}:\d{2}|Z)$/) ? ($1 eq "Z" ? "+00:00" : $1) : undef',
},
%subSecConv,
},
SubSecCreateDate => {
Description => 'Create Date',
Groups => { 2 => 'Time' },
Writable => 1,
Shift => 0, # don't shift this tag
Require => {
0 => 'EXIF:CreateDate',
},
Desire => {
1 => 'SubSecTimeDigitized',
2 => 'OffsetTimeDigitized',
},
WriteAlso => {
'EXIF:CreateDate' => '($val and $val=~/^(\d{4}:\d{2}:\d{2} \d{2}:\d{2}:\d{2})/) ? $1 : undef',
'EXIF:SubSecTimeDigitized' => '($val and $val=~/\.(\d+)/) ? $1 : undef',
'EXIF:OffsetTimeDigitized' => '($val and $val=~/([-+]\d{2}:\d{2}|Z)$/) ? ($1 eq "Z" ? "+00:00" : $1) : undef',
},
%subSecConv,
},
SubSecModifyDate => {
Description => 'Modify Date',
Groups => { 2 => 'Time' },
Writable => 1,
Shift => 0, # don't shift this tag
Require => {
0 => 'EXIF:ModifyDate',
},
Desire => {
1 => 'SubSecTime',
2 => 'OffsetTime',
},
WriteAlso => {
'EXIF:ModifyDate' => '($val and $val=~/^(\d{4}:\d{2}:\d{2} \d{2}:\d{2}:\d{2})/) ? $1 : undef',
'EXIF:SubSecTime' => '($val and $val=~/\.(\d+)/) ? $1 : undef',
'EXIF:OffsetTime' => '($val and $val=~/([-+]\d{2}:\d{2}|Z)$/) ? ($1 eq "Z" ? "+00:00" : $1) : undef',
},
%subSecConv,
},
CFAPattern => {
Require => {
0 => 'CFARepeatPatternDim',
1 => 'CFAPattern2',
},
# generate CFAPattern
ValueConv => q{
my @a = split / /, $val[0];
my @b = split / /, $val[1];
return '?' unless @a==2 and @b==$a[0]*$a[1];
return "$a[0] $a[1] @b";
},
PrintConv => 'Image::ExifTool::Exif::PrintCFAPattern($val)',
},
RedBalance => {
Groups => { 2 => 'Camera' },
Desire => {
0 => 'WB_RGGBLevels',
1 => 'WB_RGBGLevels',
2 => 'WB_RBGGLevels',
3 => 'WB_GRBGLevels',
4 => 'WB_GRGBLevels',
5 => 'WB_GBRGLevels',
6 => 'WB_RGBLevels',
7 => 'WB_GRBLevels',
8 => 'WB_RBLevels',
9 => 'WBRedLevel', # red
10 => 'WBGreenLevel',
},
ValueConv => 'Image::ExifTool::Exif::RedBlueBalance(0,@val)',
PrintConv => 'int($val * 1e6 + 0.5) * 1e-6',
},
BlueBalance => {
Groups => { 2 => 'Camera' },
Desire => {
0 => 'WB_RGGBLevels',
1 => 'WB_RGBGLevels',
2 => 'WB_RBGGLevels',
3 => 'WB_GRBGLevels',
4 => 'WB_GRGBLevels',
5 => 'WB_GBRGLevels',
6 => 'WB_RGBLevels',
7 => 'WB_GRBLevels',
8 => 'WB_RBLevels',
9 => 'WBBlueLevel', # blue
10 => 'WBGreenLevel',
},
ValueConv => 'Image::ExifTool::Exif::RedBlueBalance(1,@val)',
PrintConv => 'int($val * 1e6 + 0.5) * 1e-6',
},
GPSPosition => {
Groups => { 2 => 'Location' },
Require => {
0 => 'GPSLatitude',
1 => 'GPSLongitude',
},
Priority => 0,
ValueConv => '(length($val[0]) or length($val[1])) ? "$val[0] $val[1]" : undef',
PrintConv => '"$prt[0], $prt[1]"',
},
LensID => {
Groups => { 2 => 'Camera' },
Require => 'LensType',
Desire => {
1 => 'FocalLength',
2 => 'MaxAperture',
3 => 'MaxApertureValue',
4 => 'MinFocalLength',
5 => 'MaxFocalLength',
6 => 'LensModel',
7 => 'LensFocalRange',
8 => 'LensSpec',
9 => 'LensType2',
10 => 'LensFocalLength', # (for Pentax to check for converter)
},
Notes => q{
attempt to identify the actual lens from all lenses with a given LensType.
Applies only to LensType values with a lookup table. May be configured
by adding user-defined lenses
},
# this LensID is only valid if the LensType has a PrintConv or is a model name
RawConv => q{
my $printConv = $$self{TAG_INFO}{LensType}{PrintConv};
return $val if ref $printConv eq 'HASH' or (ref $printConv eq 'ARRAY' and
ref $$printConv[0] eq 'HASH') or $val[0] =~ /(mm|\d\/F)/;
return undef;
},
ValueConv => '$val',
PrintConv => q{
my $pcv;
# use LensType2 instead of LensType if available and valid (Sony E-mount lenses)
if ($val[9] and $val[9] & 0x8000) {
$val[0] = $val[9];
$prt[0] = $prt[9];
$pcv = $$self{TAG_INFO}{LensType2}{PrintConv};
}
my $lens = Image::ExifTool::Exif::PrintLensID($self, $prt[0], $pcv, $prt[8], @val);
# check for use of lens converter (Pentax K-3)
if ($val[10] and $val[1] and $lens) {
my $conv = $val[1] / $val[10];
$lens .= sprintf(' + %.1fx converter', $conv) if $conv > 1.1;
}
return $lens;
},
},
);
# table for unknown IFD entries
%Image::ExifTool::Exif::Unknown = (
GROUPS => { 0 => 'EXIF', 1 => 'UnknownIFD', 2 => 'Image'},
WRITE_PROC => \&WriteExif,
);
# add our composite tags
Image::ExifTool::AddCompositeTags('Image::ExifTool::Exif');
#------------------------------------------------------------------------------
# AutoLoad our writer routines when necessary
#
sub AUTOLOAD
{
return Image::ExifTool::DoAutoLoad($AUTOLOAD, @_);
}
#------------------------------------------------------------------------------
# Identify RAW file type for some TIFF-based formats using Compression value
# Inputs: 0) ExifTool object reference, 1) Compression value
# - sets TIFF_TYPE and FileType if identified
sub IdentifyRawFile($$)
{
my ($et, $comp) = @_;
if ($$et{FILE_TYPE} eq 'TIFF' and not $$et{IdentifiedRawFile}) {
if ($compression{$comp} and $compression{$comp} =~ /^\w+ ([A-Z]{3}) Compressed$/) {
$et->OverrideFileType($$et{TIFF_TYPE} = $1);
$$et{IdentifiedRawFile} = 1;
}
}
}
#------------------------------------------------------------------------------
# Calculate LV (Light Value)
# Inputs: 0) Aperture, 1) ShutterSpeed, 2) ISO
# Returns: LV value (and converts input values to floating point if necessary)
sub CalculateLV($$$)
{
local $_;
# do validity checks on arguments
return undef unless @_ >= 3;
foreach (@_) {
return undef unless $_ and /([+-]?(?=\d|\.\d)\d*(\.\d*)?([Ee]([+-]?\d+))?)/ and $1 > 0;
$_ = $1; # extract float from any other garbage
}
# (A light value of 0 is defined as f/1.0 at 1 second with ISO 100)
return log($_[0] * $_[0] * 100 / ($_[1] * $_[2])) / log(2);
}
#------------------------------------------------------------------------------
# Calculate scale factor for 35mm effective focal length (ref 26/PH)
# Inputs: 0) ExifTool object ref
# 1) Focal length
# 2) Focal length in 35mm format
# 3) Canon digital zoom factor
# 4) Focal plane diagonal size (in mm)
# 5) Sensor size (X and Y in mm)
# 6/7) Focal plane X/Y size (in mm)
# 8) focal plane resolution units (1=None,2=inches,3=cm,4=mm,5=um)
# 9/10) Focal plane X/Y resolution
# 11/12,13/14...) Image width/height in order of precedence (first valid pair is used)
# Returns: 35mm conversion factor (or undefined if it can't be calculated)
sub CalcScaleFactor35efl
{
my $et = shift;
my $res = $_[7]; # save resolution units (in case they have been converted to string)
my $sensXY = $_[4];
Image::ExifTool::ToFloat(@_);
my $focal = shift;
my $foc35 = shift;
return $foc35 / $focal if $focal and $foc35;
my $digz = shift || 1;
my $diag = shift;
my $sens = shift;
# calculate Canon sensor size using a dedicated algorithm
if ($$et{Make} eq 'Canon') {
require Image::ExifTool::Canon;
my $canonDiag = Image::ExifTool::Canon::CalcSensorDiag(
$$et{RATIONAL}{FocalPlaneXResolution},
$$et{RATIONAL}{FocalPlaneYResolution},
);
$diag = $canonDiag if $canonDiag;
}
unless ($diag and Image::ExifTool::IsFloat($diag)) {
if ($sens and $sensXY =~ / (\d+(\.?\d*)?)$/) {
$diag = sqrt($sens * $sens + $1 * $1);
} else {
undef $diag;
my $xsize = shift;
my $ysize = shift;
if ($xsize and $ysize) {
# validate by checking aspect ratio because FocalPlaneX/YSize is not reliable
my $a = $xsize / $ysize;
if (abs($a-1.3333) < .1 or abs($a-1.5) < .1) {
$diag = sqrt($xsize * $xsize + $ysize * $ysize);
}
}
}
unless ($diag) {
# get number of mm in units (assume inches unless otherwise specified)
my %lkup = ( 3=>10, 4=>1, 5=>0.001 , cm=>10, mm=>1, um=>0.001 );
my $units = $lkup{ shift() || $res || '' } || 25.4;
my $x_res = shift || return undef;
my $y_res = shift || $x_res;
Image::ExifTool::IsFloat($x_res) and $x_res != 0 or return undef;
Image::ExifTool::IsFloat($y_res) and $y_res != 0 or return undef;
my ($w, $h);
for (;;) {
@_ < 2 and return undef;
$w = shift;
$h = shift;
next unless $w and $h;
my $a = $w / $h;
last if $a > 0.5 and $a < 2; # stop if we get a reasonable value
}
# calculate focal plane size in mm
$w *= $units / $x_res;
$h *= $units / $y_res;
$diag = sqrt($w*$w+$h*$h);
# make sure size is reasonable
return undef unless $diag > 1 and $diag < 100;
}
}
return sqrt(36*36+24*24) * $digz / $diag;
}
#------------------------------------------------------------------------------
# Print exposure compensation fraction
sub PrintFraction($)
{
my $val = shift;
my $str;
if (defined $val) {
$val *= 1.00001; # avoid round-off errors
if (not $val) {
$str = '0';
} elsif (int($val)/$val > 0.999) {
$str = sprintf("%+d", int($val));
} elsif ((int($val*2))/($val*2) > 0.999) {
$str = sprintf("%+d/2", int($val * 2));
} elsif ((int($val*3))/($val*3) > 0.999) {
$str = sprintf("%+d/3", int($val * 3));
} else {
$str = sprintf("%+.3g", $val);
}
}
return $str;
}
#------------------------------------------------------------------------------
# Convert fraction or number to floating point value (or 'undef' or 'inf')
sub ConvertFraction($)
{
my $val = shift;
if ($val =~ m{([-+]?\d+)/(\d+)}) {
$val = $2 ? $1 / $2 : ($1 ? 'inf' : 'undef');
}
return $val;
}
#------------------------------------------------------------------------------
# Convert EXIF text to something readable
# Inputs: 0) ExifTool object reference, 1) EXIF text,
# 2) [optional] 1 to apply CharsetEXIF to ASCII text,
# 3) tag name for warning message (may be argument 2)
# Returns: text encoded according to Charset option (with trailing spaces removed)
sub ConvertExifText($$;$$)
{
my ($et, $val, $asciiFlex, $tag) = @_;
return $val if length($val) < 8;
my $id = substr($val, 0, 8);
my $str = substr($val, 8);
my $type;
delete $$et{WrongByteOrder};
if ($$et{OPTIONS}{Validate} and $id =~ /^(ASCII|UNICODE|JIS)?\0* \0*$/) {
$et->Warn(($1 || 'Undefined') . ' text header' . ($tag ? " for $tag" : '') . ' has spaces instead of nulls');
}
# Note: allow spaces instead of nulls in the ID codes because
# it is fairly common for camera manufacturers to get this wrong
# (also handle Canon ZoomBrowser EX 4.5 null followed by 7 bytes of garbage)
if ($id =~ /^(ASCII)?(\0|[\0 ]+$)/) {
# truncate at null terminator (shouldn't have a null based on the
# EXIF spec, but it seems that few people actually read the spec)
$str =~ s/\0.*//s;
# allow ASCII text to contain any other specified encoding
if ($asciiFlex and $asciiFlex eq '1') {
my $enc = $et->Options('CharsetEXIF');
$str = $et->Decode($str, $enc) if $enc;
}
# by the EXIF spec, the following string should be "UNICODE\0", but
# apparently Kodak sometimes uses "Unicode\0" in the APP3 "Meta" information.
# However, unfortunately Ricoh uses "Unicode\0" in the RR30 EXIF UserComment
# when the text is actually ASCII, so only recognize uppercase "UNICODE\0".
} elsif ($id =~ /^(UNICODE)[\0 ]$/) {
$type = $1;
# MicrosoftPhoto writes as little-endian even in big-endian EXIF,
# so we must guess at the true byte ordering
$str = $et->Decode($str, 'UTF16', 'Unknown');
} elsif ($id =~ /^(JIS)[\0 ]{5}$/) {
$type = $1;
$str = $et->Decode($str, 'JIS', 'Unknown');
} else {
$tag = $asciiFlex if $asciiFlex and $asciiFlex ne 1;
$et->Warn('Invalid EXIF text encoding' . ($tag ? " for $tag" : ''));
$str = $id . $str;
}
if ($$et{WrongByteOrder} and $$et{OPTIONS}{Validate}) {
$et->Warn('Wrong byte order for EXIF' . ($tag ? " $tag" : '') .
($type ? " $type" : '') . ' text');
}
$str =~ s/ +$//; # trim trailing blanks
return $str;
}
#------------------------------------------------------------------------------
# Print conversion for SpatialFrequencyResponse
sub PrintSFR($)
{
my $val = shift;
return $val unless length $val > 4;
my ($n, $m) = (Get16u(\$val, 0), Get16u(\$val, 2));
my @cols = split /\0/, substr($val, 4), $n+1;
my $pos = length($val) - 8 * $n * $m;
return $val unless @cols == $n+1 and $pos >= 4;
pop @cols;
my ($i, $j);
for ($i=0; $i<$n; ++$i) {
my @rows;
for ($j=0; $j<$m; ++$j) {
push @rows, Image::ExifTool::GetRational64u(\$val, $pos + 8*($i+$j*$n));
}
$cols[$i] .= '=' . join(',',@rows) . '';
}
return join '; ', @cols;
}
#------------------------------------------------------------------------------
# Print numerical parameter value (with sign, or 'Normal' for zero)
# Inputs: 0) value, 1) flag for inverse conversion, 2) conversion hash reference
sub PrintParameter($$$)
{
my ($val, $inv, $conv) = @_;
return $val if $inv;
if ($val > 0) {
if ($val > 0xfff0) { # a negative value in disguise?
$val = $val - 0x10000;
} else {
$val = "+$val";
}
}
return $val;
}
#------------------------------------------------------------------------------
# Convert parameter back to standard EXIF value
# 0,0.00,etc or "Normal" => 0
# -1,-2,etc or "Soft" or "Low" => 1
# +1,+2,1,2,etc or "Hard" or "High" => 2
sub ConvertParameter($)
{
my $val = shift;
my $isFloat = Image::ExifTool::IsFloat($val);
# normal is a value of zero
return 0 if $val =~ /\bn/i or ($isFloat and $val == 0);
# "soft", "low" or any negative number is a value of 1
return 1 if $val =~ /\b(s|l)/i or ($isFloat and $val < 0);
# "hard", "high" or any positive number is a value of 2
return 2 if $val =~ /\bh/i or $isFloat;
return undef;
}
#------------------------------------------------------------------------------
# Calculate Red/BlueBalance
# Inputs: 0) 0=red, 1=blue, 1-8) WB_RGGB/RGBG/RBGG/GRBG/GRGB/RGB/GRB/RBLevels,
# 8) red or blue level, 9) green level
my @rggbLookup = (
# indices for R, G, G and B components in input value
[ 0, 1, 2, 3 ], # 0 RGGB
[ 0, 1, 3, 2 ], # 1 RGBG
[ 0, 2, 3, 1 ], # 2 RBGG
[ 1, 0, 3, 2 ], # 3 GRBG
[ 1, 0, 2, 3 ], # 4 GRGB
[ 2, 3, 0, 1 ], # 5 GBRG
[ 0, 1, 1, 2 ], # 6 RGB
[ 1, 0, 0, 2 ], # 7 GRB
[ 0, 256, 256, 1 ], # 8 RB (green level is 256)
);
sub RedBlueBalance($@)
{
my $blue = shift;
my ($i, $val, $levels);
for ($i=0; $i<@rggbLookup; ++$i) {
$levels = shift or next;
my @levels = split ' ', $levels;
next if @levels < 2;
my $lookup = $rggbLookup[$i];
my $g = $$lookup[1]; # get green level or index
if ($g < 4) {
next if @levels < 3;
$g = ($levels[$g] + $levels[$$lookup[2]]) / 2 or next;
} elsif ($levels[$$lookup[$blue * 3]] < 4) {
$g = 1; # Some Nikon cameras use a scaling factor of 1 (E5700)
}
$val = $levels[$$lookup[$blue * 3]] / $g;
last;
}
$val = $_[0] / $_[1] if not defined $val and ($_[0] and $_[1]);
return $val;
}
#------------------------------------------------------------------------------
# Print exposure time as a fraction
sub PrintExposureTime($)
{
my $secs = shift;
if ($secs < 0.25001 and $secs > 0) {
return sprintf("1/%d",int(0.5 + 1/$secs));
}
$_ = sprintf("%.1f",$secs);
s/\.0$//;
return $_;
}
#------------------------------------------------------------------------------
# Print FNumber
sub PrintFNumber($)
{
my $val = shift;
if (Image::ExifTool::IsFloat($val) and $val > 0) {
# round to 1 decimal place, or 2 for values < 1.0
$val = sprintf(($val<1 ? "%.2f" : "%.1f"), $val);
}
return $val;
}
#------------------------------------------------------------------------------
# Decode raw CFAPattern value
# Inputs: 0) ExifTool ref, 1) binary value
# Returns: string of numbers
sub DecodeCFAPattern($$)
{
my ($self, $val) = @_;
# some panasonic cameras (SV-AS3, SV-AS30) write this in ascii (very odd)
if ($val =~ /^[0-6]+$/) {
$self->Warn('Incorrectly formatted CFAPattern', 1);
$val =~ tr/0-6/\x00-\x06/;
}
return $val unless length($val) >= 4;
my @a = unpack(GetByteOrder() eq 'II' ? 'v2C*' : 'n2C*', $val);
my $end = 2 + $a[0] * $a[1];
if ($end > @a) {
# try swapping byte order (I have seen this order different than in EXIF)
my ($x, $y) = unpack('n2',pack('v2',$a[0],$a[1]));
if (@a < 2 + $x * $y) {
$self->Warn('Invalid CFAPattern', 1);
} else {
($a[0], $a[1]) = ($x, $y);
# (can't technically be wrong because the order isn't well defined by the EXIF spec)
# $self->Warn('Wrong byte order for CFAPattern');
}
}
return "@a";
}
#------------------------------------------------------------------------------
# Print CFA Pattern
sub PrintCFAPattern($)
{
my $val = shift;
my @a = split ' ', $val;
return '<truncated data>' unless @a >= 2;
return '<zero pattern size>' unless $a[0] and $a[1];
my $end = 2 + $a[0] * $a[1];
return '<invalid pattern size>' if $end > @a;
my @cfaColor = qw(Red Green Blue Cyan Magenta Yellow White);
my ($pos, $rtnVal) = (2, '[');
for (;;) {
$rtnVal .= $cfaColor[$a[$pos]] || 'Unknown';
last if ++$pos >= $end;
($pos - 2) % $a[1] and $rtnVal .= ',', next;
$rtnVal .= '][';
}
return $rtnVal . ']';
}
#------------------------------------------------------------------------------
# Print conversion for lens info
# Inputs: 0) string of values (min focal, max focal, min F, max F)
# Returns: string in the form "12-20mm f/3.8-4.5" or "50mm f/1.4"
sub PrintLensInfo($)
{
my $val = shift;
my @vals = split ' ', $val;
return $val unless @vals == 4;
my $c = 0;
foreach (@vals) {
Image::ExifTool::IsFloat($_) and ++$c, next;
$_ eq 'inf' and $_ = '?', ++$c, next;
$_ eq 'undef' and $_ = '?', ++$c, next;
}
return $val unless $c == 4;
$val = $vals[0];
# (the Pentax Q writes zero for upper value of fixed-focal-length lenses)
$val .= "-$vals[1]" if $vals[1] and $vals[1] ne $vals[0];
$val .= "mm f/$vals[2]";
$val .= "-$vals[3]" if $vals[3] and $vals[3] ne $vals[2];
return $val;
}
#------------------------------------------------------------------------------
# Get lens info from lens model string
# Inputs: 0) lens string, 1) flag to allow unknown "?" values
# Returns: 0) min focal, 1) max focal, 2) min aperture, 3) max aperture
# Notes: returns empty list if lens string could not be parsed
sub GetLensInfo($;$)
{
my ($lens, $unk) = @_;
# extract focal length and aperture ranges for this lens
my $pat = '\\d+(?:\\.\\d+)?';
$pat .= '|\\?' if $unk;
return () unless $lens =~ /($pat)(?:-($pat))?\s*mm.*?(?:[fF]\/?\s*)($pat)(?:-($pat))?/;
# ($1=short focal, $2=long focal, $3=max aperture wide, $4=max aperture tele)
my @a = ($1, $2, $3, $4);
$a[1] or $a[1] = $a[0];
$a[3] or $a[3] = $a[2];
if ($unk) {
local $_;
$_ eq '?' and $_ = 'undef' foreach @a;
}
return @a;
}
#------------------------------------------------------------------------------
# Attempt to identify the specific lens if multiple lenses have the same LensType
# Inputs: 0) ExifTool object ref, 1) LensType print value, 2) PrintConv hash ref,
# 3) LensSpec print value, 4) LensType numerical value, 5) FocalLength,
# 6) MaxAperture, 7) MaxApertureValue, 8) MinFocalLength, 9) MaxFocalLength,
# 10) LensModel, 11) LensFocalRange, 12) LensSpec
sub PrintLensID($$@)
{
my ($et, $lensTypePrt, $printConv, $lensSpecPrt, $lensType, $focalLength,
$maxAperture, $maxApertureValue, $shortFocal, $longFocal, $lensModel,
$lensFocalRange, $lensSpec) = @_;
# this logic relies on the LensType lookup:
return undef unless defined $lensType;
# get print conversion hash if necessary
$printConv or $printConv = $$et{TAG_INFO}{LensType}{PrintConv};
# just copy LensType PrintConv value if it was a lens name
# (Olympus or Panasonic -- just exclude things like Nikon and Leaf LensType)
unless (ref $printConv eq 'HASH') {
if (ref $printConv eq 'ARRAY' and ref $$printConv[0] eq 'HASH') {
$printConv = $$printConv[0];
$lensTypePrt =~ s/;.*//;
$lensType =~ s/ .*//;
} else {
return $lensTypePrt if $lensTypePrt =~ /mm/;
return $lensTypePrt if $lensTypePrt =~ s/(\d)\/F/$1mm F/;
return undef;
}
}
# get LensSpec information if available (Sony)
my ($sf0, $lf0, $sa0, $la0);
if ($lensSpecPrt) {
($sf0, $lf0, $sa0, $la0) = GetLensInfo($lensSpecPrt);
undef $sf0 unless $sa0; # (make sure aperture isn't zero)
}
# use MaxApertureValue if MaxAperture is not available
$maxAperture = $maxApertureValue unless $maxAperture;
if ($lensFocalRange and $lensFocalRange =~ /^(\d+)(?: (?:to )?(\d+))?$/) {
($shortFocal, $longFocal) = ($1, $2 || $1);
}
if ($$et{Make} eq 'SONY') {
# Patch for Metabones or other adapters on Sony E-mount cameras (ref Jos Roost)
# Metabones Canon EF to E-mount adapters add 0xef00, 0xbc00 or 0x7700 to the
# high byte for 2-byte Canon LensType values, so we need to adjust for these.
# Offset 0xef00 is also used by Sigma MC-11, Fotodiox and Viltrox EF-E adapters.
# Have to exclude A-mount Sigma Filtermatic with 'odd' LensType=0xff00.
if ($lensType != 0xffff and $lensType != 0xff00) {
require Image::ExifTool::Minolta;
if ($Image::ExifTool::Minolta::metabonesID{$lensType & 0xff00}) {
$lensType -= ($lensType >= 0xef00 ? 0xef00 : $lensType >= 0xbc00 ? 0xbc00 : 0x7700);
require Image::ExifTool::Canon;
$printConv = \%Image::ExifTool::Canon::canonLensTypes;
$lensTypePrt = $$printConv{$lensType} if $$printConv{$lensType};
# Test for Sigma MC-11 SA-E adapter with Sigma SA lens using 0x4900 offset.
# (upper limit of test cuts off two highest Sigma lenses, but prevents
# conflict with old Minolta 25xxx and higher ID's)
} elsif ($lensType >= 0x4900 and $lensType <= 0x590a) {
require Image::ExifTool::Sigma;
$lensType -= 0x4900;
$printConv = \%Image::ExifTool::Sigma::sigmaLensTypes;
$lensTypePrt = $$printConv{$lensType} if $$printConv{$lensType};
}
}
} elsif ($shortFocal and $longFocal) {
# Canon (and some other makes) include makernote information
# which allows better lens identification
require Image::ExifTool::Canon;
return Image::ExifTool::Canon::PrintLensID($printConv, $lensType,
$shortFocal, $longFocal, $maxAperture, $lensModel);
}
my $lens = $$printConv{$lensType};
return ($lensModel || $lensTypePrt) unless $lens;
return $lens unless $$printConv{"$lensType.1"};
$lens =~ s/ or .*//s; # remove everything after "or"
# make list of all possible matching lenses
my @lenses = ( $lens );
my $i;
for ($i=1; $$printConv{"$lensType.$i"}; ++$i) {
push @lenses, $$printConv{"$lensType.$i"};
}
# attempt to determine actual lens
my (@matches, @best, @user, $diff);
foreach $lens (@lenses) {
push @user, $lens if $Image::ExifTool::userLens{$lens};
# sf = short focal
# lf = long focal
# sa = max aperture at short focal
# la = max aperture at long focal
my ($sf, $lf, $sa, $la) = GetLensInfo($lens);
next unless $sf;
# check against LensSpec parameters if available
if ($sf0) {
next if abs($sf - $sf0) > 0.5 or abs($sa - $sa0) > 0.15 or
abs($lf - $lf0) > 0.5 or abs($la - $la0) > 0.15;
# the basic parameters match, but also check against additional lens features:
# for Sony A and E lenses, the full LensSpec string should match with end of LensType,
# excluding any part between () at the end, and preceded by a space (the space
# ensures that e.g. Zeiss Loxia 21mm having LensSpec "E 21mm F2.8" will not be
# identified as "Sony FE 21mm F2.8 (SEL28F20 + SEL075UWC)")
$lensSpecPrt and $lens =~ / \Q$lensSpecPrt\E( \(|$)/ and @best = ( $lens ), last;
# exactly-matching Sony lens should have been found above, so only add non-Sony lenses
push @best, $lens unless $lens =~ /^Sony /;
next;
}
# adjust focal length and aperture if teleconverter is attached (Minolta)
if ($lens =~ / \+ .*? (\d+(\.\d+)?)x( |$)/) {
$sf *= $1; $lf *= $1;
$sa *= $1; $la *= $1;
}
# see if we can rule out this lens using FocalLength and MaxAperture
if ($focalLength) {
next if $focalLength < $sf - 0.5;
next if $focalLength > $lf + 0.5;
}
if ($maxAperture) {
# it seems that most manufacturers set MaxAperture and MaxApertureValue
# to the maximum aperture (smallest F number) for the current focal length
# of the lens, so assume that MaxAperture varies with focal length and find
# the closest match (this is somewhat contrary to the EXIF specification which
# states "The smallest F number of the lens", without mention of focal length)
next if $maxAperture < $sa - 0.15; # (0.15 is arbitrary)
next if $maxAperture > $la + 0.15;
# now determine the best match for this aperture
my $aa; # approximate maximum aperture at this focal length
if ($sf == $lf or $sa == $la or $focalLength <= $sf) {
# either 1) prime lens, 2) fixed-aperture zoom, or 3) zoom at min focal
$aa = $sa;
} elsif ($focalLength >= $lf) {
$aa = $la;
} else {
# assume a log-log variation of max aperture with focal length
# (see http://regex.info/blog/2006-10-05/263)
$aa = exp(log($sa) + (log($la)-log($sa)) / (log($lf)-log($sf)) *
(log($focalLength)-log($sf)));
# a linear relationship between 1/FocalLength and 1/MaxAperture fits Sony better (ref 27)
#$aa = 1 / (1/$sa + (1/$focalLength - 1/$sf) * (1/$la - 1/$sa) / (1/$lf - 1/$sf));
}
my $d = abs($maxAperture - $aa);
if (defined $diff) {
$d > $diff + 0.15 and next; # (0.15 is arbitrary)
$d < $diff - 0.15 and undef @best;
}
$diff = $d;
push @best, $lens;
}
push @matches, $lens;
}
# return the user-defined lens if it exists
if (@user) {
# choose the best match if we have more than one
if (@user > 1) {
my ($try, @good);
foreach $try (\@best, \@matches) {
$Image::ExifTool::userLens{$_} and push @good, $_ foreach @$try;
return join(' or ', @good) if @good;
}
}
return join(' or ', @user);
}
# return the best match(es) from the possible lenses
return join(' or ', @best) if @best;
return join(' or ', @matches) if @matches;
$lens = $$printConv{$lensType};
return $lensModel if $lensModel and $lens =~ / or /; # (eg. Sony NEX-5N)
return $lens;
}
#------------------------------------------------------------------------------
# Translate date into standard EXIF format
# Inputs: 0) date
# Returns: date in format '2003:10:22'
# - bad formats recognized: '2003-10-22','2003/10/22','2003 10 22','20031022'
# - removes null terminator if it exists
sub ExifDate($)
{
my $date = shift;
$date =~ s/\0$//; # remove any null terminator
# separate year:month:day with colons
# (have seen many other characters, including nulls, used erroneously)
$date =~ s/(\d{4})[^\d]*(\d{2})[^\d]*(\d{2})$/$1:$2:$3/;
return $date;
}
#------------------------------------------------------------------------------
# Translate time into standard EXIF format
# Inputs: 0) time
# Returns: time in format '10:30:55'
# - bad formats recognized: '10 30 55', '103055', '103055+0500'
# - removes null terminator if it exists
# - leaves time zone intact if specified (eg. '10:30:55+05:00')
sub ExifTime($)
{
my $time = shift;
$time =~ tr/ /:/; # use ':' (not ' ') as a separator
$time =~ s/\0$//; # remove any null terminator
# add separators if they don't exist
$time =~ s/^(\d{2})(\d{2})(\d{2})/$1:$2:$3/;
$time =~ s/([+-]\d{2})(\d{2})\s*$/$1:$2/; # to timezone too
return $time;
}
#------------------------------------------------------------------------------
# Generate TIFF file from scratch (in current byte order)
# Inputs: 0) hash of IFD entries (TagID => Value; multiple values space-delimited)
# 1) raw image data reference
# Returns: TIFF image data, or undef on error
sub GenerateTIFF($$)
{
my ($entries, $dataPt) = @_;
my ($rtnVal, $tag, $offsetPos);
my $num = scalar keys %$entries;
my $ifdBuff = GetByteOrder() . Set16u(42) . Set32u(8) . Set16u($num);
my $valBuff = '';
my $tagTablePtr = GetTagTable('Image::ExifTool::Exif::Main');
foreach $tag (sort { $a <=> $b } keys %$entries) {
my $tagInfo = $$tagTablePtr{$tag};
my $fmt = ref $tagInfo eq 'HASH' ? $$tagInfo{Writable} : 'int32u';
return undef unless defined $fmt;
my $val = Image::ExifTool::WriteValue($$entries{$tag}, $fmt, -1);
return undef unless defined $val;
my $format = $formatNumber{$fmt};
$ifdBuff .= Set16u($tag) . Set16u($format) . Set32u(length($val)/$formatSize[$format]);
$offsetPos = length($ifdBuff) if $tag == 0x111; # (remember StripOffsets position)
if (length $val > 4) {
$ifdBuff .= Set32u(10 + 12 * $num + 4 + length($valBuff));
$valBuff .= $val;
} else {
$val .= "\0" x (4 - length($val)) if length $val < 4;
$ifdBuff .= $val;
}
}
$ifdBuff .= "\0\0\0\0"; # (no IFD1)
return undef unless $offsetPos;
Set32u(length($ifdBuff) + length($valBuff), \$ifdBuff, $offsetPos);
return $ifdBuff . $valBuff . $$dataPt;
}
#------------------------------------------------------------------------------
# Rebuild TIFF thumbnail(s)/preview(s) into stand-alone files with current byte order
# Inputs: 0) ExifTool ref, 1) SubfileType, 2) Compression, 3) ImageWidth, 4) ImageHeight,
# 5) BitsPerSample, 6) PhotometricInterpretation, 7) StripOffsets, 8) SamplesPerPixel,
# 9) RowsPerStrip, 10) StripByteCounts, 10) PlanarConfiguration, 11) Orientation
# Returns: 0) TIFF image or undef, 1/2) Family 0/1 groups for TIFF preview IFD
sub RebuildTIFF($;@)
{
local $_;
my $et = $_[0];
my $value = $$et{VALUE};
my ($i, $j, $rtn, $grp0, $grp1);
return undef if $$et{FILE_TYPE} eq 'RWZ';
SubFile:
for ($i=0; ; ++$i) {
my $key = 'SubfileType' . ($i ? " ($i)" : '');
last unless defined $$value{$key};
next unless $$value{$key} == 1; # (reduced-resolution image)
my $grp = $et->GetGroup($key, 1);
my $cmp = $et->FindValue('Compression', $grp);
next unless $cmp == 1; # (no compression)
my %vals = (Compression=>$cmp, PlanarConfiguration=>1, Orientation=>1);
foreach (qw(ImageWidth ImageHeight BitsPerSample PhotometricInterpretation
StripOffsets SamplesPerPixel RowsPerStrip StripByteCounts
PlanarConfiguration Orientation))
{
my $val = $et->FindValue($_, $grp);
defined $val and $vals{$_} = $val, next;
next SubFile unless defined $vals{$_};
}
my ($w, $h) = @vals{'ImageWidth', 'ImageHeight'};
my @bits = split ' ', $vals{BitsPerSample};
my $rowBytes = 0;
$rowBytes += $w * int(($_+7)/8) foreach @bits;
my $dat = '';
my @off = split ' ', $vals{StripOffsets};
my @len = split ' ', $vals{StripByteCounts};
# read the image data
for ($j=0; $j<@off; ++$j) {
next SubFile unless $len[$j] == $rowBytes * $vals{RowsPerStrip};
my $tmp = $et->ExtractBinary($off[$j], $len[$j]);
next SubFile unless defined $tmp;
$dat .= $tmp;
}
# generate the TIFF image
my %entries = (
0x0fe => 0, # SubfileType = 0
0x100 => $w, # ImageWidth
0x101 => $h, # ImageHeight
0x102 => $vals{BitsPerSample},# BitsPerSample
0x103 => $vals{Compression},# Compression
0x106 => $vals{PhotometricInterpretation}, # PhotometricInterpretation
0x111 => 0, # StripOffsets (will be adjusted later)
0x112 => $vals{Orientation},# Orientation
0x115 => $vals{SamplesPerPixel}, # SamplesPerPixel
0x116 => $h, # RowsPerStrip
0x117 => $h * $rowBytes, # StripByteCounts
0x11a => 72, # XResolution = 72
0x11b => 72, # YResolution = 72
0x11c => $vals{PlanarConfiguration}, # PlanarConfiguration
0x128 => 2, # ResolutionUnit = 2
);
my $img = GenerateTIFF(\%entries, \$dat);
if (not defined $img) {
$et->Warn('Invalid ' . ($w > 256 ? 'Preview' : 'Thumbnail') . 'TIFF data');
} elsif ($rtn or $w > 256) { # (call it a preview if larger than 256 pixels)
$et->FoundTag('PreviewTIFF', \$img, $et->GetGroup($key));
} else {
$rtn = \$img;
($grp0, $grp1) = $et->GetGroup($key);
}
}
return $rtn unless wantarray;
return ($rtn, $grp0, $grp1);
}
#------------------------------------------------------------------------------
# Extract image from file
# Inputs: 0) ExifTool object reference, 1) data offset (in file), 2) data length
# 3) [optional] tag name
# Returns: Reference to Image if specifically requested or "Binary data" message
# Returns undef if there was an error loading the image
sub ExtractImage($$$$)
{
my ($et, $offset, $len, $tag) = @_;
my $dataPt = \$$et{EXIF_DATA};
my $dataPos = $$et{EXIF_POS};
my $image;
# no image if length is zero, and don't try to extract binary from XMP file
return undef if not $len or $$et{FILE_TYPE} eq 'XMP';
# take data from EXIF block if possible
if (defined $dataPos and $offset>=$dataPos and $offset+$len<=$dataPos+length($$dataPt)) {
$image = substr($$dataPt, $offset-$dataPos, $len);
} else {
$image = $et->ExtractBinary($offset, $len, $tag);
return undef unless defined $image;
# patch for incorrect ThumbnailOffset in some Sony DSLR-A100 ARW images
if ($tag and $tag eq 'ThumbnailImage' and $$et{TIFF_TYPE} eq 'ARW' and
$$et{Model} eq 'DSLR-A100' and $offset < 0x10000 and
$image !~ /^(Binary data|\xff\xd8\xff)/)
{
my $try = $et->ExtractBinary($offset + 0x10000, $len, $tag);
if (defined $try and $try =~ /^\xff\xd8\xff/) {
$image = $try;
$$et{VALUE}{ThumbnailOffset} += 0x10000;
$et->Warn('Adjusted incorrect A100 ThumbnailOffset', 1);
}
}
}
return $et->ValidateImage(\$image, $tag);
}
#------------------------------------------------------------------------------
# Process EXIF directory
# Inputs: 0) ExifTool object reference
# 1) Reference to directory information hash
# 2) Pointer to tag table for this directory
# Returns: 1 on success, otherwise returns 0 and sets a Warning
sub ProcessExif($$$)
{
my ($et, $dirInfo, $tagTablePtr) = @_;
my $dataPt = $$dirInfo{DataPt};
my $dataPos = $$dirInfo{DataPos} || 0;
my $dataLen = $$dirInfo{DataLen};
my $dirStart = $$dirInfo{DirStart} || 0;
my $dirLen = $$dirInfo{DirLen} || $dataLen - $dirStart;
my $dirName = $$dirInfo{DirName};
my $base = $$dirInfo{Base} || 0;
my $firstBase = $base;
my $raf = $$dirInfo{RAF};
my $verbose = $et->Options('Verbose');
my $validate = $et->Options('Validate');
my $htmlDump = $$et{HTML_DUMP};
my $success = 1;
my ($tagKey, $dirSize, $makerAddr, $strEnc, %offsetInfo);
my $inMakerNotes = $$tagTablePtr{GROUPS}{0} eq 'MakerNotes';
my $isExif = ($tagTablePtr eq \%Image::ExifTool::Exif::Main);
# set encoding to assume for strings
$strEnc = $et->Options('CharsetEXIF') if $$tagTablePtr{GROUPS}{0} eq 'EXIF';
# ignore non-standard EXIF while in strict MWG compatibility mode
if (($validate or $Image::ExifTool::MWG::strict) and $dirName eq 'IFD0' and
$isExif and $$et{FILE_TYPE} =~ /^(JPEG|TIFF|PSD)$/)
{
my $path = $et->MetadataPath();
unless ($path =~ /^(JPEG-APP1-IFD0|TIFF-IFD0|PSD-EXIFInfo-IFD0)$/) {
if ($Image::ExifTool::MWG::strict) {
$et->Warn("Ignored non-standard EXIF at $path");
return 1;
} else {
$et->Warn("Non-standard EXIF at $path", 1);
}
}
}
# mix htmlDump and Validate into verbose so we can test for all at once
$verbose = -1 if $htmlDump;
$verbose = -2 if $validate and not $verbose;
$dirName eq 'EXIF' and $dirName = $$dirInfo{DirName} = 'IFD0';
$$dirInfo{Multi} = 1 if $dirName =~ /^(IFD0|SubIFD)$/ and not defined $$dirInfo{Multi};
# get a more descriptive name for MakerNote sub-directories
my $dir = $$dirInfo{Name};
$dir = $dirName unless $dir and $inMakerNotes and $dir !~ /^MakerNote/;
my ($numEntries, $dirEnd);
if ($dirStart >= 0 and $dirStart <= $dataLen-2) {
# make sure data is large enough (patches bug in Olympus subdirectory lengths)
$numEntries = Get16u($dataPt, $dirStart);
$dirSize = 2 + 12 * $numEntries;
$dirEnd = $dirStart + $dirSize;
if ($dirSize > $dirLen) {
if (($verbose > 0 or $validate) and not $$dirInfo{SubIFD}) {
my $short = $dirSize - $dirLen;
$$et{INDENT} =~ s/..$//; # keep indent the same
$et->Warn("Short directory size for $dir (missing $short bytes)");
$$et{INDENT} .= '| ';
}
undef $dirSize if $dirEnd > $dataLen; # read from file if necessary
}
}
# read IFD from file if necessary
unless ($dirSize) {
$success = 0;
if ($raf) {
# read the count of entries in this IFD
my $offset = $dirStart + $dataPos;
my ($buff, $buf2);
if ($raf->Seek($offset + $base, 0) and $raf->Read($buff,2) == 2) {
my $len = 12 * Get16u(\$buff,0);
# also read next IFD pointer if available
if ($raf->Read($buf2, $len+4) >= $len) {
$buff .= $buf2;
# make copy of dirInfo since we're going to modify it
my %newDirInfo = %$dirInfo;
$dirInfo = \%newDirInfo;
# update directory parameters for the newly loaded IFD
$dataPt = $$dirInfo{DataPt} = \$buff;
$dataPos = $$dirInfo{DataPos} = $offset;
$dataLen = $$dirInfo{DataLen} = length $buff;
$dirStart = $$dirInfo{DirStart} = 0;
$dirLen = $$dirInfo{DirLen} = length $buff;
$success = 1;
}
}
}
unless ($success) {
$et->Warn("Bad $dir directory");
return 0;
}
$numEntries = Get16u($dataPt, $dirStart);
$dirSize = 2 + 12 * $numEntries;
$dirEnd = $dirStart + $dirSize;
}
$verbose > 0 and $et->VerboseDir($dirName, $numEntries);
my $bytesFromEnd = $dataLen - $dirEnd;
if ($bytesFromEnd < 4) {
unless ($bytesFromEnd==2 or $bytesFromEnd==0) {
$et->Warn("Illegal $dir directory size ($numEntries entries)");
return 0;
}
}
# fix base offset for maker notes if necessary
if (defined $$dirInfo{MakerNoteAddr}) {
$makerAddr = $$dirInfo{MakerNoteAddr};
delete $$dirInfo{MakerNoteAddr};
if (Image::ExifTool::MakerNotes::FixBase($et, $dirInfo)) {
$base = $$dirInfo{Base};
$dataPos = $$dirInfo{DataPos};
}
}
if ($htmlDump) {
my $longName = $dir eq 'MakerNotes' ? ($$dirInfo{Name} || $dir) : $dir;
if (defined $makerAddr) {
my $hdrLen = $dirStart + $dataPos + $base - $makerAddr;
$et->HDump($makerAddr, $hdrLen, "MakerNotes header", $longName) if $hdrLen > 0;
}
unless ($$dirInfo{NoDumpEntryCount}) {
$et->HDump($dirStart + $dataPos + $base, 2, "$longName entries",
"Entry count: $numEntries");
}
my $tip;
if ($bytesFromEnd >= 4) {
my $nxt = ($dir =~ /^(.*?)(\d+)$/) ? $1 . ($2 + 1) : 'Next IFD';
$tip = sprintf("$nxt offset: 0x%.4x", Get32u($dataPt, $dirEnd));
}
$et->HDump($dirEnd + $dataPos + $base, 4, "Next IFD", $tip, 0);
}
# patch for Canon EOS 40D firmware 1.0.4 bug (incorrect directory counts)
# (must do this before parsing directory or CameraSettings offset will be suspicious)
if ($inMakerNotes and $$et{Model} eq 'Canon EOS 40D' and $numEntries) {
my $entry = $dirStart + 2 + 12 * ($numEntries - 1);
my $fmt = Get16u($dataPt, $entry + 2);
if ($fmt < 1 or $fmt > 13) {
$et->HDump($entry+$dataPos+$base,12,"[invalid IFD entry]",
"Bad format type: $fmt", 1);
# adjust the number of directory entries
--$numEntries;
$dirEnd -= 12;
}
}
# make sure that Compression and SubfileType are defined for this IFD (for Condition's)
$$et{Compression} = $$et{SubfileType} = '';
# loop through all entries in an EXIF directory (IFD)
my ($index, $valEnd, $offList, $offHash, $mapFmt);
$mapFmt = $$tagTablePtr{VARS}{MAP_FORMAT} if $$tagTablePtr{VARS};
my ($warnCount, $lastID) = (0, -1);
for ($index=0; $index<$numEntries; ++$index) {
if ($warnCount > 10) {
$et->Warn("Too many warnings -- $dir parsing aborted", 2) and return 0;
}
my $entry = $dirStart + 2 + 12 * $index;
my $tagID = Get16u($dataPt, $entry);
my $format = Get16u($dataPt, $entry+2);
my $count = Get32u($dataPt, $entry+4);
if ($format < 1 or $format > 13) {
if ($mapFmt and $$mapFmt{$format}) {
$format = $$mapFmt{$format};
} else {
$et->HDump($entry+$dataPos+$base,12,"[invalid IFD entry]",
"Bad format type: $format", 1);
# warn unless the IFD was just padded with zeros
if ($format or $validate) {
$et->Warn("Bad format ($format) for $dir entry $index", $inMakerNotes);
++$warnCount;
}
# assume corrupted IFD if this is our first entry (except Sony ILCE-7M2 firmware 1.21)
return 0 unless $index or $$et{Model} eq 'ILCE-7M2';
next;
}
}
my $formatStr = $formatName[$format]; # get name of this format
my $valueDataPt = $dataPt;
my $valueDataPos = $dataPos;
my $valueDataLen = $dataLen;
my $valuePtr = $entry + 8; # pointer to value within $$dataPt
my $tagInfo = $et->GetTagInfo($tagTablePtr, $tagID);
my ($origFormStr, $bad, $rational);
# hack to patch incorrect count in Kodak SubIFD3 tags
if ($count < 2 and ref $$tagTablePtr{$tagID} eq 'HASH' and $$tagTablePtr{$tagID}{FixCount}) {
$offList or ($offList, $offHash) = GetOffList($dataPt, $dirStart, $dataPos,
$numEntries, $tagTablePtr);
my $i = $$offHash{Get32u($dataPt, $valuePtr)};
if (defined $i and $i < $#$offList) {
my $oldCount = $count;
$count = int(($$offList[$i+1] - $$offList[$i]) / $formatSize[$format]);
$origFormStr = $formatName[$format] . '[' . $oldCount . ']' if $oldCount != $count;
}
}
$validate and not $inMakerNotes and Image::ExifTool::Validate::ValidateExif(
$et, $tagTablePtr, $tagID, $tagInfo, $lastID, $dir, $count, $formatStr);
my $size = $count * $formatSize[$format];
my $readSize = $size;
if ($size > 4) {
if ($size > 0x7fffffff) {
$et->Warn(sprintf("Invalid size (%u) for %s tag 0x%.4x", $size, $dir, $tagID), $inMakerNotes);
++$warnCount;
next;
}
$valuePtr = Get32u($dataPt, $valuePtr);
if ($validate and not $inMakerNotes) {
$et->Warn(sprintf('Odd offset for %s tag 0x%.4x', $dir, $tagID), 1) if $valuePtr & 0x01;
if ($valuePtr < 8 || ($valuePtr + $size > length($$dataPt) and
$valuePtr + $size > $$et{VALUE}{FileSize}))
{
$et->Warn(sprintf("Invalid offset for %s tag 0x%.4x", $dir, $tagID));
++$warnCount;
next;
}
if ($valuePtr + $size > $dirStart + $dataPos and $valuePtr < $dirEnd + $dataPos + 4) {
$et->Warn(sprintf("Value for %s tag 0x%.4x overlaps IFD", $dir, $tagID));
}
}
# fix valuePtr if necessary
if ($$dirInfo{FixOffsets}) {
my $wFlag;
$valEnd or $valEnd = $dataPos + $dirEnd + 4;
#### eval FixOffsets ($valuePtr, $valEnd, $size, $tagID, $wFlag)
eval $$dirInfo{FixOffsets};
}
my $suspect;
# offset shouldn't point into TIFF header
$valuePtr < 8 and not $$dirInfo{ZeroOffsetOK} and $suspect = $warnCount;
# convert offset to pointer in $$dataPt
if ($$dirInfo{EntryBased} or (ref $$tagTablePtr{$tagID} eq 'HASH' and
$$tagTablePtr{$tagID}{EntryBased}))
{
$valuePtr += $entry;
} else {
$valuePtr -= $dataPos;
}
# value shouldn't overlap our directory
$suspect = $warnCount if $valuePtr < $dirEnd and $valuePtr+$size > $dirStart;
# load value from file if necessary
if ($valuePtr < 0 or $valuePtr+$size > $dataLen) {
# get value by seeking in file if we are allowed
my $buff;
if ($raf) {
# avoid loading large binary data unless necessary
while ($size > BINARY_DATA_LIMIT) {
if ($tagInfo) {
# make large unknown blocks binary data
$$tagInfo{Binary} = 1 if $$tagInfo{Unknown};
last unless $$tagInfo{Binary}; # must read non-binary data
last if $$tagInfo{SubDirectory};
my $lcTag = lc($$tagInfo{Name});
if ($$et{OPTIONS}{Binary} and
not $$et{EXCL_TAG_LOOKUP}{$lcTag})
{
# read binary data if specified unless tagsFromFile won't use it
last unless $$et{TAGS_FROM_FILE} and $$tagInfo{Protected};
}
# must read if tag is specified by name
last if $$et{REQ_TAG_LOOKUP}{$lcTag};
} else {
# must read value if needed for a condition
last if defined $tagInfo;
}
# (note: changing the value without changing $size will cause
# a warning in the verbose output, but we need to maintain the
# proper size for the htmlDump, so we can't change this)
$buff = "Binary data $size bytes";
$readSize = length $buff;
last;
}
# read from file if necessary
unless (defined $buff) {
my $wrn;
my $readFromRAF = ($tagInfo and $$tagInfo{ReadFromRAF});
if (not $raf->Seek($base + $valuePtr + $dataPos, 0)) {
$wrn = "Invalid offset for $dir entry $index";
} elsif ($readFromRAF and $size > BINARY_DATA_LIMIT and
not $$et{REQ_TAG_LOOKUP}{lc $$tagInfo{Name}})
{
$buff = "$$tagInfo{Name} data $size bytes";
$readSize = length $buff;
} elsif ($raf->Read($buff,$size) != $size) {
$wrn = "Error reading value for $dir entry $index";
} elsif ($readFromRAF) {
# seek back to the start of the value
$raf->Seek($base + $valuePtr + $dataPos, 0);
}
if ($wrn) {
$et->Warn($wrn, $inMakerNotes);
return 0 unless $inMakerNotes or $htmlDump;
++$warnCount;
$buff = '' unless defined $buff;
$readSize = length $buff;
$bad = 1;
}
}
$valueDataLen = length $buff;
$valueDataPt = \$buff;
$valueDataPos = $valuePtr + $dataPos;
$valuePtr = 0;
} else {
my ($tagStr, $tmpInfo, $leicaTrailer);
if ($tagInfo) {
$tagStr = $$tagInfo{Name};
$leicaTrailer = $$tagInfo{LeicaTrailer};
} elsif (defined $tagInfo) {
$tmpInfo = $et->GetTagInfo($tagTablePtr, $tagID, \ '', $formatStr, $count);
if ($tmpInfo) {
$tagStr = $$tmpInfo{Name};
$leicaTrailer = $$tmpInfo{LeicaTrailer};
}
}
if ($tagInfo and $$tagInfo{ChangeBase}) {
# adjust base offset for this tag only
#### eval ChangeBase ($dirStart,$dataPos)
my $newBase = eval $$tagInfo{ChangeBase};
$valuePtr += $newBase;
}
$tagStr or $tagStr = sprintf("tag 0x%.4x",$tagID);
# allow PreviewImage to run outside EXIF data
if ($tagStr eq 'PreviewImage' and $$et{RAF}) {
my $pos = $$et{RAF}->Tell();
$buff = $et->ExtractBinary($base + $valuePtr + $dataPos, $size, 'PreviewImage');
$$et{RAF}->Seek($pos, 0);
$valueDataPt = \$buff;
$valueDataPos = $valuePtr + $dataPos;
$valueDataLen = $size;
$valuePtr = 0;
} elsif ($leicaTrailer and $$et{RAF}) {
if ($verbose > 0) {
$et->VPrint(0, "$$et{INDENT}$index) $tagStr --> (outside APP1 segment)\n");
}
if ($et->Options('FastScan')) {
$et->Warn('Ignored Leica MakerNote trailer');
} else {
require Image::ExifTool::Fixup;
$$et{LeicaTrailer} = {
TagInfo => $tagInfo || $tmpInfo,
Offset => $base + $valuePtr + $dataPos,
Size => $size,
Fixup => new Image::ExifTool::Fixup,
};
}
} else {
$et->Warn("Bad offset for $dir $tagStr", $inMakerNotes);
++$warnCount;
}
unless (defined $buff) {
$valueDataPt = '';
$valueDataPos = $valuePtr + $dataPos;
$valueDataLen = 0;
$valuePtr = 0;
$bad = 1;
}
}
}
# warn about suspect offsets if they didn't already cause another warning
if (defined $suspect and $suspect == $warnCount) {
my $tagStr = $tagInfo ? $$tagInfo{Name} : sprintf('tag 0x%.4x', $tagID);
if ($et->Warn("Suspicious $dir offset for $tagStr", $inMakerNotes)) {
++$warnCount;
next unless $verbose;
}
}
}
# treat single unknown byte as int8u
$formatStr = 'int8u' if $format == 7 and $count == 1;
my ($val, $subdir, $wrongFormat);
if ($tagID > 0xf000 and $isExif) {
my $oldInfo = $$tagTablePtr{$tagID};
if ((not $oldInfo or (ref $oldInfo eq 'HASH' and $$oldInfo{Condition} and
not $$oldInfo{PSRaw})) and not $bad)
{
# handle special case of Photoshop RAW tags (0xfde8-0xfe58)
# --> generate tags from the value if possible
$val = ReadValue($valueDataPt,$valuePtr,$formatStr,$count,$readSize);
if (defined $val and $val =~ /(.*): (.*)/) {
my $tag = $1;
$val = $2;
$tag =~ s/'s//; # remove 's (so "Owner's Name" becomes "OwnerName")
$tag =~ tr/a-zA-Z0-9_//cd; # remove unknown characters
if ($tag) {
$tagInfo = {
Name => $tag,
Condition => '$$self{TIFF_TYPE} ne "DCR"',
ValueConv => '$_=$val;s/^.*: //;$_', # remove descr
PSRaw => 1, # (just as flag to avoid adding this again)
};
AddTagToTable($tagTablePtr, $tagID, $tagInfo);
# generate conditional list if a conditional tag already existed
$$tagTablePtr{$tagID} = [ $oldInfo, $tagInfo ] if $oldInfo;
}
}
}
}
if (defined $tagInfo and not $tagInfo) {
if ($bad) {
undef $tagInfo;
} else {
# GetTagInfo() required the value for a Condition
my $tmpVal = substr($$valueDataPt, $valuePtr, $readSize < 128 ? $readSize : 128);
# (use original format name in this call -- $formatStr may have been changed to int8u)
$tagInfo = $et->GetTagInfo($tagTablePtr, $tagID, \$tmpVal,
$formatName[$format], $count);
}
}
# make sure we are handling the 'ifd' format properly
if (($format == 13 or $format == 18) and (not $tagInfo or not $$tagInfo{SubIFD})) {
my $str = sprintf('%s tag 0x%.4x IFD format not handled', $dirName, $tagID);
$et->Warn($str, $inMakerNotes);
}
if (defined $tagInfo) {
my $readFormat = $$tagInfo{Format};
$subdir = $$tagInfo{SubDirectory};
# unless otherwise specified, all SubDirectory data except
# EXIF SubIFD offsets should be unformatted
$readFormat = 'undef' if $subdir and not $$tagInfo{SubIFD} and not $readFormat;
# override EXIF format if specified
if ($readFormat) {
$formatStr = $readFormat;
my $newNum = $formatNumber{$formatStr};
if ($newNum and $newNum != $format) {
$origFormStr = $formatName[$format] . '[' . $count . ']';
$format = $newNum;
$size = $readSize = $$tagInfo{FixedSize} if $$tagInfo{FixedSize};
# adjust number of items for new format size
$count = int($size / $formatSize[$format]);
}
}
# verify that offset-type values are integral
if (($$tagInfo{IsOffset} or $$tagInfo{SubIFD}) and not $intFormat{$formatStr}) {
$et->Warn(sprintf('Wrong format (%s) for %s 0x%.4x %s',$formatStr,$dir,$tagID,$$tagInfo{Name}));
if ($validate) {
$$et{WrongFormat}{"$dir:$$tagInfo{Name}"} = 1;
$offsetInfo{$tagID} = [ $tagInfo, '' ];
}
next unless $verbose;
$wrongFormat = 1;
}
} else {
next unless $verbose;
}
unless ($bad) {
# limit maximum length of data to reformat
# (avoids long delays when processing some corrupted files)
if ($count > 100000 and $formatStr !~ /^(undef|string|binary)$/) {
my $tagName = $tagInfo ? $$tagInfo{Name} : sprintf('tag 0x%.4x', $tagID);
if ($tagName ne 'TransferFunction' or $count ne 196608) {
my $minor = $count > 2000000 ? 0 : 2;
next if $et->Warn("Ignoring $dirName $tagName with excessive count", $minor);
}
}
# convert according to specified format
$val = ReadValue($valueDataPt,$valuePtr,$formatStr,$count,$readSize,\$rational);
# re-code if necessary
if ($strEnc and $formatStr eq 'string' and defined $val) {
$val = $et->Decode($val, $strEnc);
}
}
if ($verbose) {
my $tval = $val;
# also show as a rational
$tval .= " ($rational)" if defined $rational;
if ($htmlDump) {
my ($tagName, $colName);
if ($tagID == 0x927c and $dirName eq 'ExifIFD') {
$tagName = 'MakerNotes';
} elsif ($tagInfo) {
$tagName = $$tagInfo{Name};
} else {
$tagName = sprintf("Tag 0x%.4x",$tagID);
}
my $dname = sprintf("${dir}-%.2d", $index);
# build our tool tip
$size < 0 and $size = $count * $formatSize[$format];
my $fstr = "$formatName[$format]\[$count]";
$fstr = "$origFormStr read as $fstr" if $origFormStr and $origFormStr ne $fstr;
$fstr .= ' <-- WRONG' if $wrongFormat;
my $tip = sprintf("Tag ID: 0x%.4x\n", $tagID) .
"Format: $fstr\nSize: $size bytes\n";
if ($size > 4) {
my $offPt = Get32u($dataPt,$entry+8);
my $actPt = $valuePtr + $valueDataPos + $base - ($$et{EXIF_POS} || 0);
$tip .= sprintf("Value offset: 0x%.4x\n", $offPt);
# highlight tag name (red for bad size)
my $style = ($bad or not defined $tval) ? 'V' : 'H';
if ($actPt != $offPt) {
$tip .= sprintf("Actual offset: 0x%.4x\n", $actPt);
my $sign = $actPt < $offPt ? '-' : '';
$tip .= sprintf("Offset base: ${sign}0x%.4x\n", abs($actPt - $offPt));
$style = 'F' if $style eq 'H'; # purple for different offsets
}
$colName = "<span class=$style>$tagName</span>";
$colName .= ' <span class=V>(odd)</span>' if $offPt & 0x01;
} else {
$colName = $tagName;
}
$colName .= ' <span class=V>(err)</span>' if $wrongFormat;
$colName .= ' <span class=V>(seq)</span>' if $tagID <= $lastID and not $inMakerNotes;
$lastID = $tagID;
if (not defined $tval) {
$tval = '<bad size/offset>';
} else {
$tval = substr($tval,0,28) . '[...]' if length($tval) > 32;
if ($formatStr =~ /^(string|undef|binary)/) {
# translate non-printable characters
$tval =~ tr/\x00-\x1f\x7f-\xff/./;
} elsif ($tagInfo and Image::ExifTool::IsInt($tval)) {
if ($$tagInfo{IsOffset} or $$tagInfo{SubIFD}) {
$tval = sprintf('0x%.4x', $tval);
my $actPt = $val + $base - ($$et{EXIF_POS} || 0);
if ($actPt != $val) {
$tval .= sprintf("\nActual offset: 0x%.4x", $actPt);
my $sign = $actPt < $val ? '-' : '';
$tval .= sprintf("\nOffset base: ${sign}0x%.4x", abs($actPt - $val));
}
} elsif ($$tagInfo{PrintHex}) {
$tval = sprintf('0x%x', $tval);
}
}
}
$tip .= "Value: $tval";
$et->HDump($entry+$dataPos+$base, 12, "$dname $colName", $tip, 1);
next if $valueDataLen < 0; # don't process bad pointer entry
if ($size > 4) {
my $exifDumpPos = $valuePtr + $valueDataPos + $base;
my $flag = 0;
if ($subdir) {
if ($$tagInfo{MakerNotes}) {
$flag = 0x04;
} elsif ($$tagInfo{NestedHtmlDump}) {
$flag = $$tagInfo{NestedHtmlDump} == 2 ? 0x10 : 0x04;
}
}
# add value data block (underlining maker notes data)
$et->HDump($exifDumpPos,$size,"$tagName value",'SAME', $flag);
}
} else {
if ($tagID <= $lastID and not $inMakerNotes) {
my $str = $tagInfo ? ' '.$$tagInfo{Name} : '';
if ($tagID == $lastID) {
$et->Warn(sprintf('Duplicate tag 0x%.4x%s in %s', $tagID, $str, $dirName));
} else {
$et->Warn(sprintf('Tag ID 0x%.4x%s out of sequence in %s', $tagID, $str, $dirName));
}
}
$lastID = $tagID;
if ($verbose > 0) {
my $fstr = $formatName[$format];
$fstr = "$origFormStr read as $fstr" if $origFormStr;
$et->VerboseInfo($tagID, $tagInfo,
Table => $tagTablePtr,
Index => $index,
Value => $tval,
DataPt => $valueDataPt,
DataPos => $valueDataPos + $base,
Size => $size,
Start => $valuePtr,
Format => $fstr,
Count => $count,
);
}
}
next if not $tagInfo or $wrongFormat;
}
next unless defined $val;
#..............................................................................
# Handle SubDirectory tag types
#
if ($subdir) {
# don't process empty subdirectories
unless ($size) {
unless ($$tagInfo{MakerNotes} or $inMakerNotes) {
$et->Warn("Empty $$tagInfo{Name} data", 1);
}
next;
}
my (@values, $newTagTable, $dirNum, $newByteOrder, $invalid);
my $tagStr = $$tagInfo{Name};
if ($$subdir{MaxSubdirs}) {
@values = split ' ', $val;
# limit the number of subdirectories we parse
my $over = @values - $$subdir{MaxSubdirs};
if ($over > 0) {
$et->Warn("Ignoring $over $tagStr directories");
splice @values, $$subdir{MaxSubdirs};
}
$val = shift @values;
}
if ($$subdir{TagTable}) {
$newTagTable = GetTagTable($$subdir{TagTable});
$newTagTable or warn("Unknown tag table $$subdir{TagTable}"), next;
} else {
$newTagTable = $tagTablePtr; # use existing table
}
# loop through all sub-directories specified by this tag
for ($dirNum=0; ; ++$dirNum) {
my $subdirBase = $base;
my $subdirDataPt = $valueDataPt;
my $subdirDataPos = $valueDataPos;
my $subdirDataLen = $valueDataLen;
my $subdirStart = $valuePtr;
if (defined $$subdir{Start}) {
# set local $valuePtr relative to file $base for eval
my $valuePtr = $subdirStart + $subdirDataPos;
#### eval Start ($valuePtr, $val)
my $newStart = eval($$subdir{Start});
unless (Image::ExifTool::IsInt($newStart)) {
$et->Warn("Bad value for $tagStr");
last;
}
# convert back to relative to $subdirDataPt
$newStart -= $subdirDataPos;
# adjust directory size if necessary
unless ($$tagInfo{SubIFD} or $$subdir{BadOffset}) {
$size -= $newStart - $subdirStart;
}
$subdirStart = $newStart;
}
# this is a pain, but some maker notes are always a specific
# byte order, regardless of the byte order of the file
my $oldByteOrder = GetByteOrder();
$newByteOrder = $$subdir{ByteOrder};
if ($newByteOrder) {
if ($newByteOrder =~ /^Little/i) {
$newByteOrder = 'II';
} elsif ($newByteOrder =~ /^Big/i) {
$newByteOrder = 'MM';
} elsif ($$subdir{OffsetPt}) {
undef $newByteOrder;
warn "Can't have variable byte ordering for SubDirectories using OffsetPt";
last;
} elsif ($subdirStart + 2 <= $subdirDataLen) {
# attempt to determine the byte ordering by checking
# the number of directory entries. This is an int16u
# that should be a reasonable value.
my $num = Get16u($subdirDataPt, $subdirStart);
if ($num & 0xff00 and ($num>>8) > ($num&0xff)) {
# This looks wrong, we shouldn't have this many entries
my %otherOrder = ( II=>'MM', MM=>'II' );
$newByteOrder = $otherOrder{$oldByteOrder};
} else {
$newByteOrder = $oldByteOrder;
}
}
} else {
$newByteOrder = $oldByteOrder;
}
# set base offset if necessary
if ($$subdir{Base}) {
# calculate subdirectory start relative to $base for eval
my $start = $subdirStart + $subdirDataPos;
#### eval Base ($start,$base)
$subdirBase = eval($$subdir{Base}) + $base;
}
# add offset to the start of the directory if necessary
if ($$subdir{OffsetPt}) {
#### eval OffsetPt ($valuePtr)
my $pos = eval $$subdir{OffsetPt};
if ($pos + 4 > $subdirDataLen) {
$et->Warn("Bad $tagStr OffsetPt");
last;
}
SetByteOrder($newByteOrder);
$subdirStart += Get32u($subdirDataPt, $pos);
SetByteOrder($oldByteOrder);
}
if ($subdirStart < 0 or $subdirStart + 2 > $subdirDataLen) {
# convert $subdirStart back to a file offset
if ($raf) {
# reset SubDirectory buffer (we will load it later)
my $buff = '';
$subdirDataPt = \$buff;
$subdirDataLen = $size = length $buff;
} else {
my $msg = "Bad $tagStr SubDirectory start";
if ($verbose > 0) {
if ($subdirStart < 0) {
$msg .= " (directory start $subdirStart is before EXIF start)";
} else {
my $end = $subdirStart + $size;
$msg .= " (directory end is $end but EXIF size is only $subdirDataLen)";
}
}
$et->Warn($msg, $inMakerNotes);
last;
}
}
# must update subdirDataPos if $base changes for this subdirectory
$subdirDataPos += $base - $subdirBase;
# build information hash for new directory
my %subdirInfo = (
Name => $tagStr,
Base => $subdirBase,
DataPt => $subdirDataPt,
DataPos => $subdirDataPos,
DataLen => $subdirDataLen,
DirStart => $subdirStart,
DirLen => $size,
RAF => $raf,
Parent => $dirName,
DirName => $$subdir{DirName},
FixBase => $$subdir{FixBase},
FixOffsets => $$subdir{FixOffsets},
EntryBased => $$subdir{EntryBased},
TagInfo => $tagInfo,
SubIFD => $$tagInfo{SubIFD},
Subdir => $subdir,
);
# (remember: some cameras incorrectly write maker notes in IFD0)
if ($$tagInfo{MakerNotes}) {
# don't parse makernotes if FastScan > 1
my $fast = $et->Options('FastScan');
last if $fast and $fast > 1;
$subdirInfo{MakerNoteAddr} = $valuePtr + $valueDataPos + $base;
$subdirInfo{NoFixBase} = 1 if defined $$subdir{Base};
}
# set directory IFD name from group name of family 1 if it exists,
# unless the tag is writable as a block in which case group 1 may
# have been set automatically
if ($$tagInfo{Groups} and not $$tagInfo{Writable}) {
$subdirInfo{DirName} = $$tagInfo{Groups}{1};
# number multiple subdirectories
$subdirInfo{DirName} =~ s/\d*$/$dirNum/ if $dirNum;
}
SetByteOrder($newByteOrder); # set byte order for this subdir
# validate the subdirectory if necessary
my $dirData = $subdirDataPt; # set data pointer to be used in eval
#### eval Validate ($val, $dirData, $subdirStart, $size)
my $ok = 0;
if (defined $$subdir{Validate} and not eval $$subdir{Validate}) {
$et->Warn("Invalid $tagStr data");
$invalid = 1;
} else {
if (not $subdirInfo{DirName} and $inMakerNotes) {
$subdirInfo{DirName} = $$tagInfo{Name};
}
# process the subdirectory
$ok = $et->ProcessDirectory(\%subdirInfo, $newTagTable, $$subdir{ProcessProc});
}
# print debugging information if there were errors
if (not $ok and $verbose > 1 and $subdirStart != $valuePtr) {
my $out = $et->Options('TextOut');
printf $out "%s (SubDirectory start = 0x%x)\n", $$et{INDENT}, $subdirStart;
}
SetByteOrder($oldByteOrder); # restore original byte swapping
@values or last;
$val = shift @values; # continue with next subdir
}
my $doMaker = $et->Options('MakerNotes');
next unless $doMaker or $$et{REQ_TAG_LOOKUP}{lc($tagStr)} or $$tagInfo{BlockExtract};
# extract as a block if specified
if ($$tagInfo{MakerNotes}) {
# save maker note byte order (if it was significant and valid)
if ($$subdir{ByteOrder} and not $invalid) {
$$et{MAKER_NOTE_BYTE_ORDER} =
defined ($$et{UnknownByteOrder}) ?
$$et{UnknownByteOrder} : $newByteOrder;
}
if ($doMaker and $doMaker eq '2') {
# extract maker notes without rebuilding (no fixup information)
delete $$et{MAKER_NOTE_FIXUP};
} elsif (not $$tagInfo{NotIFD} or $$tagInfo{IsPhaseOne}) {
# this is a pain, but we must rebuild EXIF-type maker notes to
# include all the value data if data was outside the maker notes
my %makerDirInfo = (
Name => $tagStr,
Base => $base,
DataPt => $valueDataPt,
DataPos => $valueDataPos,
DataLen => $valueDataLen,
DirStart => $valuePtr,
DirLen => $size,
RAF => $raf,
Parent => $dirName,
DirName => 'MakerNotes',
FixOffsets => $$subdir{FixOffsets},
TagInfo => $tagInfo,
);
my $val2;
if ($$tagInfo{IsPhaseOne}) {
$$et{DropTags} = 1;
$val2 = Image::ExifTool::PhaseOne::WritePhaseOne($et, \%makerDirInfo, $newTagTable);
delete $$et{DropTags};
} else {
$makerDirInfo{FixBase} = 1 if $$subdir{FixBase};
# rebuild maker notes (creates $$et{MAKER_NOTE_FIXUP})
$val2 = RebuildMakerNotes($et, \%makerDirInfo, $newTagTable);
}
if (defined $val2) {
$val = $val2;
} elsif ($size > 4) {
$et->Warn('Error rebuilding maker notes (may be corrupt)');
}
}
} else {
# extract this directory as a block if specified
next unless $$tagInfo{Writable};
}
}
#..............................................................................
# convert to absolute offsets if this tag is an offset
#### eval IsOffset ($val, $et)
if ($$tagInfo{IsOffset} and eval $$tagInfo{IsOffset}) {
my $offsetBase = $$tagInfo{IsOffset} eq '2' ? $firstBase : $base;
$offsetBase += $$et{BASE};
# handle offsets which use a wrong base (Minolta A200)
if ($$tagInfo{WrongBase}) {
my $self = $et;
#### eval WrongBase ($self)
$offsetBase += eval $$tagInfo{WrongBase} || 0;
}
my @vals = split(' ',$val);
foreach $val (@vals) {
$val += $offsetBase;
}
$val = join(' ', @vals);
}
if ($validate) {
if ($$tagInfo{OffsetPair}) {
$offsetInfo{$tagID} = [ $tagInfo, $val ];
} elsif ($saveForValidate{$tagID} and $isExif) {
$offsetInfo{$tagID} = $val;
}
}
# save the value of this tag
$tagKey = $et->FoundTag($tagInfo, $val);
if (defined $tagKey) {
# set the group 1 name for tags in specified tables
$et->SetGroup($tagKey, $dirName) if $$tagTablePtr{SET_GROUP1};
# save original components of rational numbers (used when copying)
$$et{RATIONAL}{$tagKey} = $rational if defined $rational;
}
}
# validate image data offsets for this IFD
if ($validate and %offsetInfo) {
Image::ExifTool::Validate::ValidateOffsetInfo($et, \%offsetInfo, $$dirInfo{DirName}, $inMakerNotes)
}
# scan for subsequent IFD's if specified
if ($$dirInfo{Multi} and $bytesFromEnd >= 4) {
my $offset = Get32u($dataPt, $dirEnd);
if ($offset) {
my $subdirStart = $offset - $dataPos;
# use same directory information for trailing directory,
# but change the start location (ProcessDirectory will
# test to make sure we don't reprocess the same dir twice)
my %newDirInfo = %$dirInfo;
$newDirInfo{DirStart} = $subdirStart;
# increment IFD number
my $ifdNum = $newDirInfo{DirName} =~ s/(\d+)$// ? $1 : 0;
$newDirInfo{DirName} .= $ifdNum + 1;
# must validate SubIFD1 because the nextIFD pointer is invalid for some RAW formats
if ($newDirInfo{DirName} ne 'SubIFD1' or ValidateIFD(\%newDirInfo)) {
$$et{INDENT} =~ s/..$//; # keep indent the same
my $cur = pop @{$$et{PATH}};
$et->ProcessDirectory(\%newDirInfo, $tagTablePtr) or $success = 0;
push @{$$et{PATH}}, $cur;
} elsif ($verbose or $$et{TIFF_TYPE} eq 'TIFF') {
$et->Warn('Ignored bad IFD linked from SubIFD');
}
}
}
return $success;
}
1; # end
__END__
=head1 NAME
Image::ExifTool::Exif - Read EXIF/TIFF meta information
=head1 SYNOPSIS
This module is required by Image::ExifTool.
=head1 DESCRIPTION
This module contains routines required by Image::ExifTool for processing
EXIF and TIFF meta information.
=head1 AUTHOR
Copyright 2003-2018, Phil Harvey (phil at owl.phy.queensu.ca)
This library is free software; you can redistribute it and/or modify it
under the same terms as Perl itself.
=head1 REFERENCES
=over 4
=item L<http://www.exif.org/Exif2-2.PDF>
=item L<http://www.cipa.jp/std/documents/e/DC-008-2012_E.pdf>
=item L<http://partners.adobe.com/asn/developer/pdfs/tn/TIFF6.pdf>
=item L<http://partners.adobe.com/public/developer/en/tiff/TIFFPM6.pdf>
=item L<http://www.adobe.com/products/dng/pdfs/dng_spec.pdf>
=item L<http://www.awaresystems.be/imaging/tiff/tifftags.html>
=item L<http://www.remotesensing.org/libtiff/TIFFTechNote2.html>
=item L<http://www.exif.org/dcf.PDF>
=item L<http://park2.wakwak.com/~tsuruzoh/Computer/Digicams/exif-e.html>
=item L<http://www.fine-view.com/jp/lab/doc/ps6ffspecsv2.pdf>
=item L<http://www.ozhiker.com/electronics/pjmt/jpeg_info/meta.html>
=item L<http://hul.harvard.edu/jhove/tiff-tags.html>
=item L<http://www.microsoft.com/whdc/xps/wmphoto.mspx>
=item L<http://www.asmail.be/msg0054681802.html>
=item L<http://crousseau.free.fr/imgfmt_raw.htm>
=item L<http://www.cybercom.net/~dcoffin/dcraw/>
=item L<http://www.digitalpreservation.gov/formats/content/tiff_tags.shtml>
=item L<http://community.roxen.com/developers/idocs/rfc/rfc3949.html>
=item L<http://tools.ietf.org/html/draft-ietf-fax-tiff-fx-extension1-01>
=item L<http://wwwimages.adobe.com/www.adobe.com/content/dam/Adobe/en/devnet/cinemadng/pdfs/CinemaDNG_Format_Specification_v1_1.pdf>
=item L<http://geotiff.maptools.org/spec/geotiffhome.html>
=back
=head1 ACKNOWLEDGEMENTS
Thanks to Jeremy Brown for the 35efl tags, and Matt Madrid for his help with
the XP character code conversions.
=head1 SEE ALSO
L<Image::ExifTool::TagNames/EXIF Tags>,
L<Image::ExifTool(3pm)|Image::ExifTool>
=cut