/usr/share/tcltk/tcllib1.18/tiff/tiff.tcl is in tcllib 1.18-dfsg-3.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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#
# Querying and modifying TIFF 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: tiff.tcl,v 1.5 2008/03/24 03:48:59 andreas_kupries Exp $
package provide tiff 0.2.1
namespace eval ::tiff {}
proc ::tiff::openTIFF {file {mode r}} {
variable byteOrder
set fh [open $file $mode]
fconfigure $fh -encoding binary -translation binary -eofchar {}
binary scan [read $fh 2] H4 byteOrder
if {$byteOrder == "4949"} {
set byteOrder little
} elseif {$byteOrder == "4d4d"} {
set byteOrder big
} else {
close $fh
return -code error "not a tiff file"
}
_scan $byteOrder [read $fh 6] si version offset
if {$version != "42"} {
close $fh
return -code error "not a tiff file"
}
seek $fh $offset start
return $fh
}
proc ::tiff::isTIFF {file} {
set is [catch {openTIFF $file} fh]
catch {close $fh}
return [expr {!$is}]
}
proc ::tiff::byteOrder {file} {
variable byteOrder
set fh [openTIFF $file]
close $fh
return $byteOrder
}
proc ::tiff::nametotag {names} {
variable tiff_sgat
set out {}
foreach x $names {
set y [lindex $x 0]
if {[info exists tiff_sgat($y)]} {
set y $tiff_sgat($y)
} elseif {![string match {[0-9a-f][0-9a-f][0-9a-f][0-9a-f]} $x]} {
error "unknown tag $y"
}
lappend out [lreplace $x 0 0 $y]
}
return $out
}
proc ::tiff::tagtoname {tags} {
variable tiff_tags
set out {}
foreach x $tags {
set y [lindex $x 0]
if {[info exists tiff_tags($y)]} { set y $tiff_tags($y) }
lappend out [lreplace $x 0 0 $y]
}
return $out
}
proc ::tiff::numImages {file} {
variable byteOrder
set fh [openTIFF $file]
set images [llength [_ifds $fh]]
close $fh
return $images
}
proc ::tiff::dimensions {file {image 0}} {
array set tmp [getEntry $file {0100 0101} $image]
return [list $tmp(0100) $tmp(0101)]
}
proc ::tiff::imageInfo {file {image 0}} {
return [getEntry $file {ImageWidth ImageLength BitsPerSample Compression \
PhotometricInterpretation ImageDescription Orientation XResolution \
YResolution ResolutionUnit DateTime Artist HostComputer} $image]
}
proc ::tiff::entries {file {image 0}} {
variable byteOrder
set fh [openTIFF $file]
set ret {}
if {[set ifd [lindex [_ifds $fh] $image]] != ""} {
seek $fh $ifd
foreach e [tagtoname [_entries $fh]] {
lappend ret [lindex $e 0]
}
}
close $fh
return $ret
}
proc ::tiff::getEntry {file entry {image 0}} {
variable byteOrder
set fh [openTIFF $file]
set ret {}
if {[set ifd [lindex [_ifds $fh] $image]] != ""} {
seek $fh $ifd
set ent [_entries $fh]
foreach e $entry {
if {[set x [lsearch -inline $ent "[nametotag $e] *"]] != ""} {
seek $fh [lindex $x 1]
lappend ret $e [lindex [_getEntry $fh] 1]
} else {
lappend ret $e {}
}
}
}
close $fh
return $ret
}
proc ::tiff::addEntry {file entry {image 0}} {
variable byteOrder
set fh [openTIFF $file]
set new [_new $file.tmp $byteOrder]
set ifds [_ifds $fh]
for {set i 0} {$i < [llength $ifds]} {incr i} {
seek $fh [lindex $ifds $i]
_readifd $fh ifd
if {$i == $image || $image == "all"} {
foreach e [nametotag $entry] {
set ifd($e) [eval [linsert $e 0 _unformat $byteOrder]]
}
}
_copyData $fh $new ifd
}
close $fh
close $new
file rename -force $file.tmp $file
}
proc ::tiff::deleteEntry {file entry {image 0}} {
variable byteOrder
set fh [openTIFF $file]
set new [_new $file.tmp $byteOrder]
set ifds [_ifds $fh]
for {set i 0} {$i < [llength $ifds]} {incr i} {
seek $fh [lindex $ifds $i]
_readifd $fh ifd
if {$i == $image || $image == "all"} {
foreach e [nametotag $entry] { unset -nocomplain ifd($e) }
}
_copyData $fh $new ifd
}
close $fh
close $new
file rename -force $file.tmp $file
}
proc ::tiff::writeImage {image file {entry {}}} {
variable byteOrder
set byteOrder big
set fh [_new $file $byteOrder]
set w [$image cget -width]
set h [$image cget -height]
set ifd(0100) [_unformat $byteOrder 0100 4 $w] ;# width
set ifd(0101) [_unformat $byteOrder 0101 4 $h] ;# height
set ifd(0102) [_unformat $byteOrder 0102 3 {8 8 8}] ;# color depth
set ifd(0103) [_unformat $byteOrder 0103 3 1] ;# compression = none
set ifd(0106) [_unformat $byteOrder 0106 3 2] ;# photometric interpretation = rgb
set ifd(0115) [_unformat $byteOrder 0115 3 3] ;# 3 samples per pixel r, g, and b
set ifd(011c) [_unformat $byteOrder 011c 3 1] ;# planar configuration = rgb
foreach {tag format value} $entry {
set ifd($tag) [_unformat $byteOrder $tag $format $value]
}
set rowsPerStrip 2
while {$w * 3 * $rowsPerStrip < 8000} { incr rowsPerStrip }
incr rowsPerStrip -1
set strips [expr {int(ceil($h / double($rowsPerStrip)))}]
set stripSize [expr {$w * $rowsPerStrip * 3}]
set lastStripSize [expr {3 * $w * ($h - (($strips - 1) * $rowsPerStrip))}]
for {set i $strips} {$i > 1} {incr i -1} { lappend sizes $stripSize }
lappend sizes $lastStripSize
set ifd(0116) [_unformat $byteOrder 0116 4 $rowsPerStrip]
set ifd(0111) [_unformat $byteOrder 0111 4 $sizes]
# dummy data, to get ifd size, real value inserted later
set ifd(0117) [_unformat $byteOrder 0117 4 $sizes]
# add 8 bytes for file header
set start [expr {[_ifdsize ifd] + 8}]
for {set i $strips} {$i > 0} {incr i -1} {
lappend offsets $start
incr start $stripSize
}
set ifd(0111) [_unformat $byteOrder 0111 4 $offsets]
_writeifd $fh ifd
for {set y 0} {$y < $h} {incr y} {
for {set x 0} {$x < $w} {incr x} {
foreach {r g b} [$image get $x $y] {
puts -nonewline $fh [_unscan $byteOrder ccc [expr {$r & 0xFF}] [expr {$g & 0xFF}] [expr {$b & 0xFF}]]
}
}
}
close $fh
}
proc ::tiff::getImage {file {image 0}} {
array set tags [getEntry $file {0100 0101 0102 0103 0106 011c 0115 0111 0117 0140} $image]
if {$tags(0102) == "8 8 8" && $tags(0103) == 1 && $tags(0106) == 2 && $tags(0115) == 3 && $tags(011c) == 1} {
set w $tags(0100)
set h $tags(0101)
set i [image create photo -height $h -width $w]
set fh [open $file]
fconfigure $fh -translation binary -encoding binary -eofchar {}
set y 0
set x 0
set row {}
set block {}
foreach offset $tags(0111) len $tags(0117) {
seek $fh $offset start
binary scan [read $fh $len] c* buf
foreach {r g b} $buf {
lappend row [format "#%02X%02X%02X" [expr {$r & 0xFF}] [expr {$g & 0xFF}] [expr {$b & 0xFF}]]
incr x
if {$x == $w} { lappend block $row; set row {}; set x 0 }
}
$i put $block -to 0 $y
incr y [llength $block]
set block {}
}
close $fh
} elseif {$tags(0102) == 8 && $tags(0103) == 1 && $tags(0106) == 3 && $tags(0115) == 1 && $tags(011c) == 1} {
set w $tags(0100)
set h $tags(0101)
set i [image create photo -height $h -width $w]
set fh [open $file]
fconfigure $fh -translation binary -encoding binary -eofchar {}
set map {}
set third [expr {[llength $tags(0140)] / 3}]
set rs [lrange $tags(0140) 0 [expr {$third - 1}]]
set gs [lrange $tags(0140) $third [expr {($third * 2) - 1}]]
set bs [lrange $tags(0140) [expr {$third * 2}] end]
foreach r $rs g $gs b $bs {
set r [expr {int($r / 256) & 0xFF}]
set g [expr {int($g / 256) & 0xFF}]
set b [expr {int($b / 256) & 0xFF}]
lappend map [format "#%02X%02X%02X" $r $g $b]
}
set y 0
set x 0
set row {}
set block {}
foreach offset $tags(0111) len $tags(0117) {
seek $fh $offset start
binary scan [read $fh $len] c* buf
foreach index $buf {
lappend row [lindex $map [expr {$index & 0xFF}]]
incr x
if {$x == $w} { lappend block $row; set row {}; set x 0 }
}
$i put $block -to 0 $y
incr y [llength $block]
set block {}
}
close $fh
} else {
error "I cant read that image format"
}
return $i
}
proc ::tiff::_copyData {fh new var} {
variable byteOrder
upvar $var ifd
set fix {}
# strips, free bytes, tiles, and their sizes
foreach f_off {0111 0120 0143} f_len {0117 0121 0144} {
if {![info exists ifd($f_len)] || ![info exists ifd($f_off)]} { continue }
set n 0
# put everything into a list
foreach x [_value $ifd($f_len)] y [_value $ifd($f_off)] {
lappend fix [list $n $f_len $x $f_off $y]
incr n
}
}
set offset [expr {[tell $new] + [_ifdsize ifd]}]
set new_fix {}
# sort the list by offset
foreach x [lsort -integer -index 4 $fix] {
lappend new_fix [lreplace $x 4 4 $offset]
incr offset [lindex $x 2]
}
foreach x [lsort -integer -index 0 $new_fix] {
lappend blah([lindex $x 3]) [lindex $x 4]
}
foreach x [array names blah] {
_scan $byteOrder [lindex $ifd($x) 0] x2s format
set ifd($x) [_unformat $byteOrder $x $format $blah($x)]
}
if {[info exists ifd(8769)]} {
seek $fh [_value $ifd(8769)]
_readifd $fh exif
_scan $byteOrder [lindex $ifd($x) 0] x2s format
set ifd(8769) [_unformat $byteOrder 8769 $format $offset]
}
_writeifd $new ifd
foreach x $fix {
seek $fh [lindex $x 4] start
fcopy $fh $new -size [lindex $x 2]
}
if {[info exists ifd(8769)]} {
_writeifd $new exif
}
}
# returns a list of offsets of all the IFDs
proc ::tiff::_ifds {fh} {
variable byteOrder
# number of entries in this ifd
_scan $byteOrder [read $fh 2] s num
# subract 2 to account for reading the number
set ret [list [expr {[tell $fh] - 2}]]
# skip the entries, 12 bytes each
seek $fh [expr {$num * 12}] current
# 4 byte offset to next ifd after entries
_scan $byteOrder [read $fh 4] i next
while {$next > 0} {
seek $fh $next start
_scan $byteOrder [read $fh 2] s num
lappend ret [expr {[tell $fh] - 2}]
seek $fh [expr {$num * 12}] current
_scan $byteOrder [read $fh 4] i next
}
return $ret
}
# takes fh at start of IFD and returns entries, offset, and size
proc ::tiff::_entries {fh} {
variable byteOrder
variable formats
set ret {}
_scan $byteOrder [read $fh 2] s num
for {} {$num > 0} {incr num -1} {
set offset [tell $fh]
binary scan [read $fh 2] H2H2 t1 t2
_scan $byteOrder [read $fh 6] si format components
seek $fh 4 current
if {$byteOrder == "big"} {
set tag $t1$t2
} else {
set tag $t2$t1
}
#puts "$tag $format $components"
set size [expr {$formats($format) * $components}]
lappend ret [list $tag $offset $size]
}
return $ret
}
# takes fh at start of dir entry and returns tag and value(s)
proc ::tiff::_getEntry {fh} {
variable byteOrder
variable formats
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 $fh 4]
set size [expr {$formats($format) * $components}]
#puts "entry $tag $format $components $size"
# if the data is over 4 bytes, its stored later in the file
if {$size > 4} {
set pos [tell $fh]
_scan $byteOrder $value i value
seek $fh $value start
set value [read $fh $size]
seek $fh $pos start
}
return [list $tag [_format $byteOrder $value $format $components]]
}
proc ::tiff::_value {data} {
variable byteOrder
_scan $byteOrder [lindex $data 0] x2si format components
return [_format $byteOrder [lindex $data 1] $format $components]
}
proc ::tiff::_new {file byteOrder} {
set fh [open $file w]
fconfigure $fh -encoding binary -translation binary -eofchar {}
if {$byteOrder == "big"} {
puts -nonewline $fh [binary format H4 4d4d]
} else {
puts -nonewline $fh [binary format H4 4949]
}
puts -nonewline $fh [_unscan $byteOrder si 42 8]
return $fh
}
proc ::tiff::_readifd {fh var} {
variable byteOrder
variable formats
upvar $var ifd
array set ifd {}
_scan $byteOrder [read $fh 2] s num
for {} {$num > 0} {incr num -1} {
set one [read $fh 8]
binary scan $one H2H2 t1 t2
_scan $byteOrder $one x2si format components
if {$byteOrder == "big"} {
set tag $t1$t2
} else {
set tag $t2$t1
}
set ifd($tag) [list $one]
set value [read $fh 4]
set size [expr {$formats($format) * $components}]
if {$size > 4} {
set pos [tell $fh]
_scan $byteOrder $value i value
seek $fh $value start
lappend ifd($tag) [read $fh $size]
seek $fh $pos start
} else {
lappend ifd($tag) $value
}
}
}
proc ::tiff::_writeifd {new var} {
variable byteOrder
upvar $var ifd
set num [llength [array names ifd]]
puts -nonewline $new [_unscan $byteOrder s $num]
set dataOffset [expr {[tell $new] + ($num * 12) + 4}]
set data {}
foreach tag [lsort [array names ifd]] {
set entry $ifd($tag)
puts -nonewline $new [lindex $entry 0]
if {[string length [lindex $entry 1]] > 4} {
puts -nonewline $new [_unscan $byteOrder i $dataOffset]
append data [lindex $entry 1]
incr dataOffset [string length [lindex $entry 1]]
} else {
puts -nonewline $new [lindex $entry 1]
}
}
set next [tell $new]
puts -nonewline $new [binary format i 0]
puts -nonewline $new $data
return $next
}
proc ::tiff::_ifdsize {var} {
upvar $var ifd
# 2 bytes for number of entries and 4 bytes for pointer to next ifd
set size 6
foreach x [array names ifd] {
incr size 12
# include data that doesnt fit in entry
if {[string length [lindex $ifd($x) 1]] > 4} {
incr size [string length [lindex $ifd($x) 1]]
}
}
return $size
}
proc ::tiff::debug {file} {
variable byteOrder
variable tiff_tags
set fh [openTIFF $file]
set n 0
foreach ifd [_ifds $fh] {
seek $fh $ifd start
set entries [_entries $fh]
puts "IFD $n ([llength $entries] entries)"
foreach ent $entries {
if {[info exists tiff_tags([lindex $ent 0])]} {
puts -nonewline " $tiff_tags([lindex $ent 0])"
} else {
puts -nonewline " [lindex $ent 0]"
}
if {[lindex $ent 2] < 200} {
seek $fh [lindex $ent 1] start
puts ": [lindex [_getEntry $fh] 1]"
} else {
puts " offset [lindex $ent 1] size [lindex $ent 2] bytes"
}
if {[lindex $ent 0] == "8769"} {
seek $fh [lindex $ent 1] start
seek $fh [lindex [_getEntry $fh] 1]
foreach x [_entries $fh] {
seek $fh [lindex $x 1]
puts " [_getEntry $fh]"
}
}
}
incr n
}
}
array set ::tiff::tiff_tags {
00fe NewSubfileType
00ff SubfileType
0100 ImageWidth
0101 ImageLength
0102 BitsPerSample
0103 Compression
0106 PhotometricInterpretation
0107 Threshholding
0108 CellWidth
0109 CellLength
010a FillOrder
010e ImageDescription
010f Make
0110 Model
0111 StripOffsets
0112 Orientation
0115 SamplesPerPixel
0116 RowsPerStrip
0117 StripByteCounts
0118 MinSampleValue
0119 MaxSampleValue
011a XResolution
011b YResolution
011c PlanarConfiguration
0120 FreeOffsets
0121 FreeByteCounts
0122 GrayResponseUnit
0123 GrayResponseCurve
0128 ResolutionUnit
0131 Software
0132 DateTime
013b Artist
013c HostComputer
0140 ColorMap
0152 ExtraSamples
8298 Copyright
010d DocumentName
011d PageName
011e XPosition
011f YPosition
0124 T4Options
0125 T6Options
0129 PageNumber
012d TransferFunction
013d Predictor
013e WhitePoint
013f PrimaryChromaticities
0141 HalftoneHints
0142 TileWidth
0143 TileLength
0144 TileOffsets
0145 TileByteCounts
0146 BadFaxLines
0147 CleanFaxData
0148 ConsecutiveBadFaxLines
014a SubIFDs
014c InkSet
014d InkNames
014e NumberOfInks
0150 DotRange
0151 TargetPrinter
0153 SampleFormat
0154 SMinSampleValue
0155 SMaxSampleValue
0156 TransferRange
0157 ClipPath
0158 XClipPathUnits
0159 YClipPathUnits
015a Indexed
015b JPEGTables
015f OPIProxy
0190 GlobalParametersIFD
0191 ProfileType
0192 FaxProfile
0193 CodingMethods
0194 VersionYear
0195 ModeNumber
01b1 Decode
01b2 DefaultImageColor
0200 JPEGProc
0201 JPEGInterchangeFormat
0202 JPEGInterchangeFormatLength
0203 JPEGRestartInterval
0205 JPEGLosslessPredictors
0206 JPEGPointTransforms
0207 JPEGQTables
0208 JPEGDCTables
0209 JPEGACTables
0211 YCbCrCoefficients
0212 YCbCrSubSampling
0213 YCbCrPositioning
0214 ReferenceBlackWhite
022f StripRowCounts
02bc XMP
800d ImageID
87ac ImageLayer
8649 Photoshop
8769 ExifIFD
8773 ICCProfile
}
if {![info exists ::tiff::tiff_sgat]} {
foreach {x y} [array get ::tiff::tiff_tags] {
set ::tiff::tiff_sgat($y) $x
}
}
array set ::tiff::data_types {
1 BYTE
2 ASCII
3 SHORT
4 LONG
5 RATIONAL
6 SBYTE
7 UNDEFINED
8 SSHORT
9 SLONG
10 SRATIONAL
11 FLOAT
12 DOUBLE
BYTE 1
ASCII 2
SHORT 3
LONG 4
RATIONAL 5
SBYTE 6
UNDEFINED 7
SSHORT 8
SLONG 9
SRATIONAL 10
FLOAT 11
DOUBLE 12
}
# for mapping the format types to byte lengths
array set ::tiff::formats [list 1 1 2 1 3 2 4 4 5 8 6 1 7 1 8 2 9 4 10 8 11 4 12 8]
proc ::tiff::_seek {chan offset {origin start}} {
if {$origin == "start"} {
variable start
seek $chan [expr {$offset + $start}] start
} else {
seek $chan $offset $origin
}
}
# [binary scan], in the byte order indicated by $e
proc ::tiff::_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
}
}
# [binary format], in the byte order indicated by $e
proc ::tiff::_unscan {e f args} {
if {$e == "big"} {
return [eval [list binary format [string map {b B h H s S i I} $f]] $args]
} else {
return [eval [list binary format $f] $args]
}
}
# formats values, the numbers correspond to data types
# values may be either byte order, as indicated by $end
# see the tiff spec for more info
proc ::tiff::_format {end value type num} {
if {$num > 1 && $type != 2 && $type != 7} {
variable formats
set r {}
for {set i 0} {$i < $num} {incr i} {
set len $formats($type)
lappend r [_format $end [string range $value [expr {$len * $i}] [expr {($len * $i) + $len - 1}]] $type 1]
}
#return [join $r ,]
return $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
}
proc ::tiff::_unformat {end tag type value} {
set packed_val {}
set count [llength $value]
if {$type == 2 || $type == 7} { set value [list $value] }
foreach val $value {
switch -exact -- $type {
1 { set val [_unscan $end c $val] }
2 {
append val \x00
set count [string length $val]
}
3 { set val [_unscan $end s $val] }
4 { set val [_unscan $end i $val] }
5 {
set val [split $val /]
set val [_unscan $end i [lindex $val 0]][_unscan $end i [lindex $val 1]]
}
6 { set val [_unscan $end c $val] }
7 { set count [string length $val] }
8 { set val [_unscan $end s $val] }
9 { set val [_unscan $end i $val] }
10 {
set val [split $val /]
set val [_unscan $end i [lindex $val 0]][_unscan $end i [lindex $val 1]]
}
11 { set val [_unscan $end $value i value] }
12 { set val [_unscan $end $value w value] }
default { error "unknown data type $type" }
}
append packed_val $val
}
if {$tag != ""} {
if {$end == "big"} {
set tag [binary format H2H2 [string range $tag 0 1] [string range $tag 2 3]]
} else {
set tag [binary format H2H2 [string range $tag 2 3] [string range $tag 0 1]]
}
}
if {[string length $packed_val] < 4} { set packed_val [binary format a4 $packed_val] }
return [list $tag[_unscan $end si $type $count] $packed_val]
}
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