/usr/share/tcltk/tcllib1.14/jpeg/jpeg.tcl is in tcllib 1.14-dfsg-1.
This file is owned by root:root, with mode 0o644.
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#
# Querying and modifying JPEG image files.
#
# Copyright (c) 2004 Aaron Faupell <afaupell@users.sourceforge.net>
#
# See the file "license.terms" for information on usage and redistribution
# of this file, and for a DISCLAIMER OF ALL WARRANTIES.
#
# RCS: @(#) $Id: jpeg.tcl,v 1.19 2011/05/06 13:39:27 patthoyts Exp $
# ### ### ### ######### ######### #########
## Requisites
namespace eval ::jpeg {}
# ### ### ### ######### ######### #########
## Notes :: Structure of jpeg files.
# Base types
#
# BYTE = 1 byte
# SHORT = 2 bytes, endianess determined by context.
# BESHORT = 2 bytes, big endian
# INT = 4 bytes, endianess determined by context.
# JPEG types
#
# JPEG = <
# BYTE [2] == 0xFF 0xD8 (SOI (Start Of Image))
# JSEGMENT [.] 1 or more jpeg segments, variadic size
# BYTE [2] == 0xFF 0xD9 (EOI (End Of Image))
# >
#
# JSEGMENT = <
# BYTE [1] == 0xFF
# BYTE [1] Segment Tag, type marker
# BESHORT [1] Segment Length N
# BYTE [N-2] Segment Data, interpreted dependent on tag.
# >
#
# Notable segments, and their structure.
#
# Comment = JSEGMENT (Tag = 0xFE, Data = <
#
# >)
# Type 0xFE (Comment)
# Data BYTE [ ]
# Note: Multiple comment segments are allowed.
# Type 0xC0/0xC1/0xC2/0xC3 (Start of Frame)
# Data BYTE [1] Precision
# BESHORT [1] Height
# BESHORT [1] Width
# BYTE [1] Number of color components
# ...
# Type 0xEx (x=0-9A-F) (App0 - App15)
# Data It is expected that the data starts with a checkable marker, as
# the app segments can be used by multiple applications for
# different purposes. I.e. a sub-type is needed before the
# segment data can be processed.
# App0/JFIF image info
# Type 0xE0
# Data BYTE [5] 'JFIF\0' JFIF sub-type marker
# BYTE [1] Version1 (major)
# BYTE [1] Version2 (minor)
# BYTE [1] Units
# BESHORT [1] X-density (dots per inch ?)
# BESHORT [1] Y-density
# BYTE [1] X-thumb (Width of thumbnail, if any, or zero)
# BYTE [1] Y-thumb (Height of thumbnail, if any, or zero)
# App0/JFXX extended image information
# Type 0xE0
# Data BYTE [5] 'JFXX\0' JFXX sub-type marker
# BYTE [1] Extension code 10 -> JPEG thumbnail
# 11 -> Palletized thumbnail
# 13 -> RGB thumbnail
# BYTE [ ] Data per the extension code.
# App1/EXIF
# Type 0xE1
# Data BYTE [6] 'Exif\0\0' EXIF sub-type marker. (1)
# BYTE [2] Byte Order 0x4d 0x4d = big endian
# or 0x49 0x49 = small endian
# SHORT [1] Magic == 42 under the specified byteorder.
# INT [1] Next == Offset to the first actual EXIF data block.
#
# EXIF data block structure (IFD = Image File Directory)
#
# 1. SHORT [1] Number N of exif entries
# 2. ENTRY [N] Array of exif entries
# 3. INT [1] Offset to the next EXIF data block, or <0 for the last block.
#
# exif ENTRY structure
#
# 1. SHORT [1] num
# 2. SHORT [1] tag = exif key
# 3. SHORT [1] format
# 4. INT [1] component
# 5. INT [1] value
# The 'value is interpreted dependent on the values of tag, format,
# and component.
#
# A. Tag in ( 0x8769, 0xA005 )
# Value is offset to a subordinate exif data block, process recursively.
# B. Size = components * sizeof(format)
# B1. Size > 4
# Value is offset to the actual value.
# B2. Size <= 4
# Value is the actual value.
# Usually a jpeg with exif information has two exif data blocks. The
# first is the main block, the second the thumbnail block.
#
# Note that all the exif data structures are within the app1/exif
# segment.
#
# (1) The offset of the first byte after the exif marker is what all
# the offsets in exif are relative to.
# Type 0xDA (SOS, Start of Stream/Scan)
# Followed by the JPEG data. Last segment before EOI
# ### ### ### ######### ######### #########
# open a file, check jpeg signature, and a return a file handle
# at the start of the first marker
proc ::jpeg::openJFIF {file {mode r}} {
set fh [open $file $mode]
fconfigure $fh -encoding binary -translation binary -eofchar {}
# jpeg sig is FFD8, FF is start of first marker
if {[read $fh 3] != "\xFF\xD8\xFF"} { close $fh; return -code error "not a jpg file" }
# rewind to first marker
seek $fh -1 current
return $fh
}
# return a boolean indicating if a file starts with the jpeg sig
proc ::jpeg::isJPEG {file} {
set is [catch {openJFIF $file} fh]
catch {close $fh}
return [expr {!$is}]
}
# takes an open filehandle at the start of a jpeg marker, and returns a list
# containing information about the file markers in the jpeg file. each list
# element itself a list of the marker type, offset of the start of its data,
# and the length of its data.
proc ::jpeg::markers {fh} {
set chunks [list]
while {[read $fh 1] == "\xFF"} {
binary scan [read $fh 3] H2S type len
# convert to unsigned
set len [expr {$len & 0x0000FFFF}]
# decrement len to account for marker bytes
incr len -2
lappend chunks [list $type [tell $fh] $len]
seek $fh $len current
}
# chunks = list (list (type offset length) ...)
return $chunks
}
proc ::jpeg::imageInfo {file} {
set fh [openJFIF $file r]
set data {}
if {[set app0 [lsearch -inline [markers $fh] "e0 *"]] != ""} {
seek $fh [lindex $app0 1] start
set id [read $fh 5]
if {$id == "JFIF\x00"} {
binary scan [read $fh 9] cccSScc ver1 ver2 units xr yr xt yt
set data [list version $ver1.$ver2 units $units xdensity $xr ydensity $yr xthumb $xt ythumb $yt]
}
}
close $fh
return $data
}
# return an images dimensions by reading the Start Of Frame marker
proc ::jpeg::dimensions {file} {
set fh [openJFIF $file]
set sof [lsearch -inline [markers $fh] {c[0-3] *}]
seek $fh [lindex $sof 1] start
binary scan [read $fh 5] cSS precision height width
close $fh
return [list $width $height]
}
# returns a list of all comments (FE segments) in the file
proc ::jpeg::getComments {file} {
set fh [openJFIF $file]
set comments {}
foreach x [lsearch -all -inline [markers $fh] "fe *"] {
seek $fh [lindex $x 1] start
lappend comments [read $fh [lindex $x 2]]
}
close $fh
return $comments
}
# add a new comment to the file
proc ::jpeg::addComment {file comment args} {
set fh [openJFIF $file r+]
# find the SoF and save all data after it
set sof [lsearch -inline [markers $fh] {c[0-3] *}]
seek $fh [expr {[lindex $sof 1] - 4}] start
set data2 [read $fh]
# seek back to the SoF and write comment(s) segment
seek $fh [expr {[lindex $sof 1] - 4}] start
foreach x [linsert $args 0 $comment] {
if {$x == ""} continue
puts -nonewline $fh [binary format a2Sa* "\xFF\xFE" [expr {[string length $x] + 2}] $x]
}
# write the saved data bac
puts -nonewline $fh $data2
close $fh
}
proc ::jpeg::replaceComment {file comment} {
set com [getComments $file]
removeComments $file
eval [list addComment $file] [lreplace $com 0 0 $comment]
}
# removes all comment segments from the file
proc ::jpeg::removeComments {file} {
set fh [openJFIF $file]
set data "\xFF\xD8"
foreach marker [markers $fh] {
if {[lindex $marker 0] != "fe"} {
# seek back 4 bytes to include the marker and length bytes
seek $fh [expr {[lindex $marker 1] - 4}] start
append data [read $fh [expr {[lindex $marker 2] + 4}]]
}
}
append data [read $fh]
close $fh
set fh [open $file w]
fconfigure $fh -encoding binary -translation binary -eofchar {}
puts -nonewline $fh $data
close $fh
}
# rewrites a jpeg file and removes all metadata (comments, exif, photoshop)
proc ::jpeg::stripJPEG {file} {
set fh [openJFIF $file]
set data {}
set markers [markers $fh]
# look for a jfif header segment and save it
if {[lindex $markers 0 0] == "e0"} {
seek $fh [lindex $markers 0 1] start
if {[read $fh 5] == "JFIF\x00"} {
seek $fh -9 current
set jfif [read $fh [expr {[lindex $markers 0 2] + 4}]]
}
}
# if we dont have a jfif header (exif files), create a fake one
if {![info exists jfif]} {
set jfif [binary format a2Sa5cccSScc "\xFF\xE0" 16 "JFIF\x00" 1 2 1 72 72 0 0]
}
# remove all the e* and f* markers (metadata)
foreach marker $markers {
if {![string match {[ef]*} [lindex $marker 0]]} {
seek $fh [expr {[lindex $marker 1] - 4}] start
append data [read $fh [expr {[lindex $marker 2] + 4}]]
}
}
append data [read $fh]
close $fh
set fh [open $file w+]
fconfigure $fh -encoding binary -translation binary -eofchar {}
# write a jpeg file sig, a jfif header, and all the remaining data
puts -nonewline $fh \xFF\xD8$jfif$data
close $fh
}
# if file contains a jpeg thumbnail return it. the returned data is the actual
# jpeg data, it can be written directly to a file
proc ::jpeg::getThumbnail {file} {
# check if the exif information contains a thumbnail
array set exif [getExif $file thumbnail]
if {[info exists exif(Compression)] && \
$exif(Compression) == 6 && \
[info exists exif(JPEGInterchangeFormat)] && \
[info exists exif(JPEGInterchangeFormatLength)]} {
set fh [openJFIF $file]
seek $fh [expr {$exif(ExifOffset) + $exif(JPEGInterchangeFormat)}] start
set thumb [read $fh $exif(JPEGInterchangeFormatLength)]
close $fh
return $thumb
}
# check for a JFXX segment which contains a thumbnail
set fh [openJFIF $file]
foreach x [lsearch -inline -all [markers $fh] "e0 *"] {
seek $fh [lindex $x 1] start
binary scan [read $fh 6] a5H2 id excode
# excode 10 is jpeg encoding, we cant interpret the other types
if {$id == "JFXX\x00" && $excode == "10"} {
set thumb [read $fh [expr {[lindex $x 2] - 6}]]
close $fh
return $thumb
}
}
close $fh
}
# takes key-value pairs returned by getExif and converts their values into
# human readable format
proc ::jpeg::formatExif {exif} {
variable exif_values
set out {}
foreach {tag val} $exif {
if {[info exists exif_values($tag,$val)]} {
set val $exif_values($tag,$val)
} elseif {[info exists exif_values($tag,)]} {
set val $exif_values($tag,)
} else {
switch -exact -- $tag {
UserComment {set val [string trim [string range $val 8 end] \x00]}
ComponentsConfiguration {binary scan $val cccc a b c d; set val $a,$b,$c,$d}
ExifVersion {set val [expr [string range $val 0 1].[string range $val 2 3]]}
FNumber {set val [format %2.1f $val]}
MaxApertureValue -
ApertureValue {
if {$val > 0} {
set val [format %2.1f [expr {2 * (log($val) / log(2))}]]
}
}
ShutterSpeedValue {
set val [expr {pow(2, $val)}]
if {abs(round($val) - $val) < 0.2} {set val [expr {round($val)}]}
set val 1/[string trimright [string trimright [format %.2f $val] 0] .]
}
ExposureTime {
set val 1/[string trimright [string trimright [format %.4f [expr {1 / $val}]] 0] .]
}
}
}
lappend out $tag $val
}
return $out
}
# returns a list of all known exif keys
proc ::jpeg::exifKeys {} {
variable exif_tags
set ret {}
foreach {x y} [array get exif_tags] {lappend ret $y}
return $ret
}
proc ::jpeg::getExif {file {type main}} {
set fh [openJFIF $file]
set r [catch {getExifFromChannel $fh $type} err]
close $fh
return -code $r $err
}
proc ::jpeg::getExifFromChannel {chan {type main}} {
# foreach because file may have multiple e1 markers
foreach app1 [lsearch -inline -all [markers $chan] "e1 *"] {
seek $chan [lindex $app1 1] start
# check that this e1 is really an Exif segment
if {[read $chan 6] != "Exif\x00\x00"} continue
# save offset because exif offsets are relative to this
set start [tell $chan]
# next 2 bytes determine byte order
binary scan [read $chan 2] H4 byteOrder
if {$byteOrder == "4d4d"} {
set byteOrder big
} elseif {$byteOrder == "4949"} {
set byteOrder little
} else {
return -code error "invalid byte order magic"
}
# the answer is 42, if we have our byte order correct
_scan $byteOrder [read $chan 6] si magic next
if {$magic != 42} { return -code error "invalid byte order"}
seek $chan [expr {$start + $next}] start
if {$type != "thumbnail"} {
if {$type != "main"} {
return -code error "Bad type \"$type\", expected one of \"main\", or \"thumbnail\""
}
set data [_exif $chan $byteOrder $start]
} else {
# number of entries in this exif block
_scan $byteOrder [read $chan 2] s num
# each entry is 12 bytes
seek $chan [expr {$num * 12}] current
# offset of next exif block (for thumbnail)
_scan $byteOrder [read $chan 4] i next
if {$next <= 0} { close $chan; return }
# but its relative to start
seek $chan [expr {$start + $next}] start
set data [_exif $chan $byteOrder $start]
}
lappend data ExifOffset $start ExifByteOrder $byteOrder
return $data
}
return
}
proc ::jpeg::removeExif {file} {
set fh [openJFIF $file]
set data {}
set markers [markers $fh]
if {[lsearch $markers "e1 *"] < 0} { close $fh; return }
foreach marker $markers {
if {[lindex $marker 0] != "e1"} {
seek $fh [expr {[lindex $marker 1] - 4}] start
append data [read $fh [expr {[lindex $marker 2] + 4}]]
} else {
seek $fh [lindex $marker 1] start
if {[read $fh 6] == "Exif\x00\x00"} continue
seek $fh -10 current
append data [read $fh [expr {[lindex $marker 2] + 4}]]
}
}
append data [read $fh]
close $fh
set fh [open $file w]
fconfigure $fh -encoding binary -translation binary -eofchar {}
puts -nonewline $fh "\xFF\xD8"
if {[lindex $markers 0 0] != "e0"} {
puts -nonewline $fh [binary format a2Sa5cccSScc "\xFF\xE0" 16 "JFIF\x00" 1 2 1 72 72 0 0]
}
puts -nonewline $fh $data
close $fh
}
proc ::jpeg::_exif2 {data} {
variable exif_tags
set byteOrder little
set start 0
set i 2
for {_scan $byteOrder $data @0s num} {$num > 0} {incr num -1} {
binary scan $data @${i}H2H2 t1 t2
if {$byteOrder == "big"} {
set tag $t1$t2
} else {
set tag $t2$t1
}
incr i 2
_scan $byteOrder $data @${i}si format components
incr i 6
set value [string range $data $i [expr {$i + 3}]]
if {$tag == "8769" || $tag == "a005"} {
_scan $byteOrder $value i next
#set pos [tell $fh]
#seek $fh [expr {$offset + $next}] start
#eval lappend return [_exif $fh $byteOrder $offset]
#seek $fh $pos start
continue
}
if {![info exists exif_formats($format)]} continue
if {[info exists exif_tags($tag)]} { set tag $exif_tags($tag) }
set size [expr {$exif_formats($format) * $components}]
if {$size > 4} {
_scan $byteOrder $value i value
#puts "$value"
#set value [string range $data [expr {$i + $offset + $value}] [expr {$size - 1}]]
}
lappend ret $tag [_format $byteOrder $value $format $components]
}
}
# reads an exif block and returns key-value pairs
proc ::jpeg::_exif {fh byteOrder offset {tag_info exif_tags}} {
variable exif_formats
variable exif_tags
variable gps_tags
set return {}
for {_scan $byteOrder [read $fh 2] s num} {$num > 0} {incr num -1} {
binary scan [read $fh 2] H2H2 t1 t2
_scan $byteOrder [read $fh 6] si format components
if {$byteOrder == "big"} {
set tag $t1$t2
} else {
set tag $t2$t1
}
set value [read $fh 4]
# special tags, they point to more exif blocks
if {$tag == "8769" || $tag == "a005"} {
_scan $byteOrder $value i next
set pos [tell $fh]
seek $fh [expr {$offset + $next}] start
eval lappend return [_exif $fh $byteOrder $offset]
seek $fh $pos start
continue
}
# special tag, another exif block holding GPS/location information.
if {$tag == "8825"} {
_scan $byteOrder $value i next
set pos [tell $fh]
seek $fh [expr {$offset + $next}] start
eval lappend return [_exif $fh $byteOrder $offset gps_tags]
seek $fh $pos start
continue
}
if {![info exists exif_formats($format)]} continue
upvar 0 $tag_info thetags
if {[info exists thetags($tag)]} { set tag $thetags($tag) }
set size [expr {$exif_formats($format) * $components}]
# if the data is over 4 bytes, its stored later in the file, with the
# data being the offset relative to the exif header
if {$size > 4} {
set pos [tell $fh]
_scan $byteOrder $value i value
seek $fh [expr {$offset + $value}] start
set value [read $fh $size]
seek $fh $pos start
}
lappend return $tag [_format $byteOrder $value $format $components]
}
return $return
}
proc ::jpeg::MakerNote {offset byteOrder Make data} {
if {$Make == "Canon"} {
set data [MakerNoteCanon $offset $byteOrder $data]
} elseif {[string match Nikon* $data] || $Make == "NIKON"} {
set data [MakerNoteNikon $offset $byteOrder $data]
} elseif {[string match FUJIFILM* $data]} {
set data [MakerNoteFuji $offset $byteOrder $data]
} elseif {[string match OLYMP* $data]} {
set data [MakerNoteOlympus $offset $byteOrder $data]
}
return $data
}
proc ::jpeg::MakerNoteNikon {offset byteOrder data} {
variable exif_formats
set return {}
if {[string match Nikon* $data]} {
set i 8
} else {
set i 0
}
binary scan $data @8s num
incr i 2
puts [expr {($num * 12) + $i}]
puts [string range $data 142 150]
#exit
for {} {$num > 0} {incr num -1} {
binary scan $data @${i}H2H2 t1 t2
if {$byteOrder == "big"} {
set tag $t1$t2
} else {
set tag $t2$t1
}
incr i 2
_scan $byteOrder $data @${i}si format components
incr i 6
set value [string range $data $i [expr {$i + 3}]]
if {![info exists exif_formats($format)]} continue
#if {[info exists exif_tags($tag)]} { set tag $exif_tags($tag) }
set size [expr {$exif_formats($format) * $components}]
if {$size > 4} {
_scan $byteOrder $value i value
puts "$value"
set value 1
#set value [string range $data [expr {$i + $offset + $value}] [expr {$size - 1}]]
} else {
lappend ret $tag [_format $byteOrder $value $format $components]
}
puts "$tag $format $components $value"
}
return $return
}
proc ::jpeg::debug {file} {
set fh [openJFIF $file]
puts "marker: d8 length: 0"
puts " SOI (Start Of Image)"
foreach marker [markers $fh] {
seek $fh [lindex $marker 1]
puts "marker: [lindex $marker 0] length: [lindex $marker 2]"
switch -glob -- [lindex $marker 0] {
c[0-3] {
binary scan [read $fh 6] cSSc precision height width color
puts " SOF (Start Of Frame) [string map {c0 "Baseline" c1 "Non-baseline" c2 "Progressive" c3 "Lossless"} [lindex $marker 0]]"
puts " Image dimensions: $width $height"
puts " Precision: $precision"
puts " Color Components: $color"
}
c4 {
puts " DHT (Define Huffman Table)"
binary scan [read $fh 17] cS bits symbols
puts " $symbols symbols"
}
da {
puts " SOS (Start Of Scan)"
binary scan [read $fh 2] c num
puts " Components: $num"
}
db {
puts " DQT (Define Quantization Table)"
}
dd {
puts " DRI (Define Restart Interval)"
binary scan [read $fh 2] S num
puts " Interval: $num blocks"
}
e0 {
set id [read $fh 5]
if {$id == "JFIF\x00"} {
puts " JFIF"
binary scan [read $fh 9] cccSScc ver1 ver2 units xr vr xt yt
puts " Header: $ver1.$ver2 $units $xr $vr $xt $yt"
} elseif {$id == "JFXX\x00"} {
puts " JFXX (JFIF Extension)"
binary scan [read $fh 1] H2 excode
if {$excode == "10"} { set excode "10 (JPEG thumbnail)" }
if {$excode == "11"} { set excode "11 (Palletized thumbnail)" }
if {$excode == "13"} { set excode "13 (RGB thumbnail)" }
puts " Extension code: 0x$excode"
} else {
puts " Unknown APP0 segment: $id"
}
}
e1 {
if {[read $fh 6] == "Exif\x00\x00"} {
puts " EXIF data"
puts " MAIN EXIF"
foreach {x y} [getExif $file] {
puts " $x $y"
}
puts " THUMBNAIL EXIF"
foreach {x y} [getExif $file thumbnail] {
puts " $x $y"
}
} else {
puts " APP1 (unknown)"
}
}
e2 {
if {[read $fh 12] == "ICC_PROFILE\x00"} {
puts " ICC profile"
} else {
puts " APP2 (unknown)"
}
}
ed {
if {[read $fh 18] == "Photoshop 3.0\0008BIM"} {
puts " Photoshop 8BIM data"
} else {
puts " APP13 (unknown)"
}
}
ee {
if {[read $fh 5] == "Adobe"} {
puts " Adobe metadata"
} else {
puts " APP14 (unknown)"
}
}
e[3456789abcf] {
puts [format " %s%d %s" APP 0x[string index [lindex $marker 0] 1] (unknown)]
}
fe {
puts " Comment: [read $fh [lindex $marker 2]]"
}
default {
puts " Unknown"
}
}
}
}
# for mapping the exif format types to byte lengths
array set ::jpeg::exif_formats [list 1 1 2 1 3 2 4 4 5 8 6 1 7 1 8 2 9 4 10 8 11 4 12 8]
# list of recognized exif tags. if a tag is not listed here it will show up as its raw hex value
array set ::jpeg::exif_tags {
0100 ImageWidth
0101 ImageLength
0102 BitsPerSample
0103 Compression
0106 PhotometricInterpretation
0112 Orientation
0115 SamplesPerPixel
011c PlanarConfiguration
0212 YCbCrSubSampling
0213 YCbCrPositioning
011a XResolution
011b YResolution
0128 ResolutionUnit
0111 StripOffsets
0116 RowsPerStrip
0117 StripByteCounts
0201 JPEGInterchangeFormat
0202 JPEGInterchangeFormatLength
012d TransferFunction
013e WhitePoint
013f PrimaryChromaticities
0211 YCbCrCoefficients
0213 YCbCrPositioning
0214 ReferenceBlackWhite
0132 DateTime
010e ImageDescription
010f Make
0110 Model
0131 Software
013b Artist
8298 Copyright
9000 ExifVersion
a000 FlashpixVersion
a001 ColorSpace
9101 ComponentsConfiguration
9102 CompressedBitsPerPixel
a002 ExifImageWidth
a003 ExifImageHeight
927c MakerNote
9286 UserComment
a004 RelatedSoundFile
9003 DateTimeOriginal
9004 DateTimeDigitized
9290 SubsecTime
9291 SubsecTimeOriginal
9292 SubsecTimeDigitized
829a ExposureTime
829d FNumber
8822 ExposureProgram
8824 SpectralSensitivity
8827 ISOSpeedRatings
8828 OECF
9201 ShutterSpeedValue
9202 ApertureValue
9203 BrightnessValue
9204 ExposureBiasValue
9205 MaxApertureValue
9206 SubjectDistance
9207 MeteringMode
9208 LightSource
9209 Flash
920a FocalLength
9214 SubjectArea
a20b FlashEnergy
a20c SpatialFrequencyResponse
a20e FocalPlaneXResolution
a20f FocalPlaneYResolution
a210 FocalPlaneResolutionUnit
a214 SubjectLocation
a215 ExposureIndex
a217 SensingMethod
a300 FileSource
a301 SceneType
a302 CFAPattern
a401 CustomRendered
a402 ExposureMode
a403 WhiteBalance
a404 DigitalZoomRatio
a405 FocalLengthIn35mmFilm
a406 SceneCaptureType
a407 GainControl
a408 Contrast
a409 Saturation
a40a Sharpness
a40b DeviceSettingDescription
a40c SubjectDistanceRange
a420 ImageUniqueID
0001 InteroperabilityIndex
0002 InteroperabilityVersion
1000 RelatedImageFileFormat
1001 RelatedImageWidth
1002 RelatedImageLength
00fe NewSubfileType
00ff SubfileType
013d Predictor
0142 TileWidth
0143 TileLength
0144 TileOffsets
0145 TileByteCounts
014a SubIFDs
015b JPEGTables
828d CFARepeatPatternDim
828e CFAPattern
828f BatteryLevel
83bb IPTC/NAA
8773 InterColorProfile
8825 GPSInfo
8829 Interlace
882a TimeZoneOffset
882b SelfTimerMode
920c SpatialFrequencyResponse
920d Noise
9211 ImageNumber
9212 SecurityClassification
9213 ImageHistory
9215 ExposureIndex
9216 TIFF/EPStandardID
}
# list of recognized exif tags for the GPSInfo section--added by mdp 6/5/2009
array set ::jpeg::gps_tags {
0000 GPSVersionID
0001 GPSLatitudeRef
0002 GPSLatitude
0003 GPSLongitudeRef
0004 GPSLongitude
0005 GPSAltitudeRef
0006 GPSAltitude
0007 GPSTimeStamp
0008 GPSSatellites
0009 GPSStatus
000a GPSMeasureMode
000b GPSDOP
000c GPSSpeedRef
000d GPSSpeed
000e GPSTrackRef
000f GPSTrack
0010 GPSImgDirectionRef
0011 GPSImgDirection
0012 GPSMapDatum
0013 GPSDestLatitudeRef
0014 GPSDestLatitude
0015 GPSDestLongitudeRef
0016 GPSDestLongitude
0017 GPSDestBearingRef
0018 GPSDestBearing
0019 GPSDestDistanceRef
001a GPSDestDistance
001b GPSProcessingMethod
001c GPSAreaInformation
001d GPSDateStamp
001e GPSDifferential
}
# for mapping exif values to plain english by [formatExif]
array set ::jpeg::exif_values {
Compression,1 none
Compression,6 JPEG
Compression, unknown
PhotometricInterpretation,2 RGB
PhotometricInterpretation,6 YCbCr
PhotometricInterpretation, unknown
Orientation,1 normal
Orientation,2 mirrored
Orientation,3 "180 degrees"
Orientation,4 "180 degrees, mirrored"
Orientation,5 "90 degrees ccw, mirrored"
Orientation,6 "90 degrees cw"
Orientation,7 "90 degrees cw, mirrored"
Orientation,8 "90 degrees ccw"
Orientation, unknown
PlanarConfiguration,1 chunky
PlanarConfiguration,2 planar
PlanarConfiguration, unknown
YCbCrSubSampling,2,1 YCbCr4:2:2
YCbCrSubSampling,2,2 YCbCr4:2:0
YCbCrSubSampling, unknown
YCbCrPositioning,1 centered
YCbCrPositioning,2 co-sited
YCbCrPositioning, unknown
FlashpixVersion,0100 "Flashpix Format Version 1.0"
FlashpixVersion, unknown
ColorSpace,1 sRGB
ColorSpace,32768 uncalibrated
ColorSpace, unknown
ExposureProgram,0 undefined
ExposureProgram,1 manual
ExposureProgram,2 normal
ExposureProgram,3 "aperture priority"
ExposureProgram,4 "shutter priority"
ExposureProgram,5 creative
ExposureProgram,6 action
ExposureProgram,7 portrait
ExposureProgram,8 landscape
ExposureProgram, unknown
LightSource,0 unknown
LightSource,1 daylight
LightSource,2 flourescent
LightSource,3 tungsten
LightSource,4 flash
LightSource,9 "fine weather"
LightSource,10 "cloudy weather"
LightSource,11 shade
LightSource,12 "daylight flourescent"
LightSource,13 "day white flourescent"
LightSource,14 "cool white flourescent"
LightSource,15 "white flourescent"
LightSource,17 "standard light A"
LightSource,18 "standard light B"
LightSource,19 "standard light C"
LightSource,20 D55
LightSource,21 D65
LightSource,22 D75
LightSource,23 D50
LightSource,24 "ISO studio tungsten"
LightSource,255 other
LightSource, unknown
Flash,0 "no flash"
Flash,1 "flash fired"
Flash,5 "strobe return light not detected"
Flash,7 "strobe return light detected"
Flash,9 "flash fired, compulsory flash mode"
Flash,13 "flash fired, compulsory flash mode, return light not detected"
Flash,15 "flash fired, compulsory flash mode, return light detected"
Flash,16 "flash did not fire, compulsory flash mode"
Flash,24 "flash did not fire, auto mode"
Flash,25 "flash fired, auto mode"
Flash,29 "flash fired, auto mode, return light not detected"
Flash,31 "flash fired, auto mode, return light detected"
Flash,32 "no flash function"
Flash,65 "flash fired, red-eye reduction mode"
Flash,69 "flash fired, red-eye reduction mode, return light not detected"
Flash,71 "flash fired, red-eye reduction mode, return light detected"
Flash,73 "flash fired, compulsory mode, red-eye reduction mode"
Flash,77 "flash fired, compulsory mode, red-eye reduction mode, return light not detected"
Flash,79 "flash fired, compulsory mode, red-eye reduction mode, return light detected"
Flash,89 "flash fired, auto mode, red-eye reduction mode"
Flash,93 "flash fired, auto mode, return light not detected, red-eye reduction mode"
Flash,95 "flash fired, auto mode, return light detected, red-eye reduction mode"
Flash, unknown
ResolutionUnit,2 inch
ResolutionUnit,3 centimeter
ResolutionUnit, unknown
SensingMethod,1 undefined
SensingMethod,2 "one chip color area sensor"
SensingMethod,3 "two chip color area sensor"
SensingMethod,4 "three chip color area sensor"
SensingMethod,5 "color sequential area sensor"
SensingMethod,7 "trilinear sensor"
SensingMethod,8 "color sequential linear sensor"
SensingMethod, unknown
SceneType,\x01\x00\x00\x00 "directly photographed image"
SceneType, unknown
CustomRendered,0 normal
CustomRendered,1 custom
ExposureMode,0 auto
ExposureMode,1 manual
ExposureMode,2 "auto bracket"
ExposureMode, unknown
WhiteBalance,0 auto
WhiteBlanace,1 manual
WhiteBlanace, unknown
SceneCaptureType,0 standard
SceneCaptureType,1 landscape
SceneCaptureType,2 portrait
SceneCaptureType,3 night
SceneCaptureType, unknown
GainControl,0 none
GainControl,1 "low gain up"
GainControl,2 "high gain up"
GainControl,3 "low gain down"
GainControl,4 "high gain down"
GainControl, unknown
Contrast,0 normal
Contrast,1 soft
Contrast,2 hard
Contrast, unknown
Saturation,0 normal
Saturation,1 low
Saturation,2 high
Saturation, unknown
Sharpness,0 normal
Sharpness,1 soft
Sharpness,2 hard
Sharpness, unknown
SubjectDistanceRange,0 unknown
SubjectDistanceRange,1 macro
SubjectDistanceRange,2 close
SubjectDistanceRange,3 distant
SubjectDistanceRange, unknown
MeteringMode,0 unknown
MeteringMode,1 average
MeteringMode,2 "center weighted average"
MeteringMode,3 spot
MeteringMode,4 multi-spot
MeteringMode,5 multi-segment
MeteringMode,6 partial
MeteringMode,255 other
MeteringMode, unknown
FocalPlaneResolutionUnit,2 inch
FocalPlaneResolutionUnit,3 centimeter
FocalPlaneResolutionUnit, none
DigitalZoomRatio,0 "not used"
FileSource,\x03\x00\x00\x00 "digital still camera"
FileSource, unknown
}
# [binary scan], in the byte order indicated by $e
proc ::jpeg::_scan {e v f args} {
foreach x $args { upvar 1 $x $x }
if {$e == "big"} {
eval [list binary scan $v [string map {b B h H s S i I} $f]] $args
} else {
eval [list binary scan $v $f] $args
}
}
# formats exif values, the numbers correspond to data types
# values may be either byte order, as indicated by $end
# see the exif spec for more info
proc ::jpeg::_format {end value type num} {
if {$num > 1 && $type != 2 && $type != 7} {
variable exif_formats
set r {}
for {set i 0} {$i < $num} {incr i} {
set len $exif_formats($type)
lappend r [_format $end [string range $value [expr {$len * $i}] [expr {($len * $i) + $len - 1}]] $type 1]
}
return [join $r ,]
}
switch -exact -- $type {
1 { _scan $end $value c value }
2 { set value [string trimright $value \x00] }
3 {
_scan $end $value s value
set value [format %u $value]
}
4 {
_scan $end $value i value
set value [format %u $value]
}
5 {
_scan $end $value ii n d
set n [format %u $n]
set d [format %u $d]
if {$d == 0} {set d 1}
#set value [string trimright [string trimright [format %5.4f [expr {double($n) / $d}]] 0] .]
set value [string trimright [string trimright [expr {double($n) / $d}] 0] .]
#set value "$n/$d"
}
6 { _scan $end $value c value }
8 { _scan $end $value s value }
9 { _scan $end $value i value }
10 {
_scan $end $value ii n d
if {$d == 0} {set d 1}
#set value [string trimright [string trimright [format %5.4f [expr {double($n) / $d}]] 0] .]
set value [string trimright [string trimright [expr {double($n) / $d}] 0] .]
#set value "$n/$d"
}
11 { _scan $end $value i value }
12 { _scan $end $value w value }
}
return $value
}
# Do a compatibility version of [lassign] for versions of Tcl without
# that command. Not using a version check as special builds may have
# the command even if they are a version which nominally would not.
if {![llength [info commands lassign]]} {
proc ::jpeg::lassign {sequence v args} {
set args [linsert $args 0 $v]
set a [::llength $args]
# Nothing to assign.
#if {$a == 0} {return $sequence}
# Perform assignments
set i 0
foreach v $args {
upvar 1 $v var
set var [::lindex $sequence $i]
incr i
}
# Return remainder, if there is any.
return [::lrange $sequence $a end]
}
}
# ### ### ### ######### ######### #########
## Ready
package provide jpeg 0.4.0
|