A single remark from Pat Thoyts made me do this:
Save this file as tclsfx and make it executable.
Usage
tclsfx file1 ?file2 fileN?
this will create a file named file1-sfx.tcl.
Extraction
tclsh file1-sfx.tcl
Will write the archived files to the original file names.
This is a ten minute hack, no sophisticated directory handling is included.
-- PS 03Mar04
#!/bin/sh # This line continues for Tcl, but is a single line for 'sh' \ exec tclsh "$0" ${1+"$@"} catch { package require Trf } package require base64 set decoder_part1 { package require Tcl 8.2 namespace eval ::base64 { namespace export encode decode } if {![catch {package require Trf 2.0}]} { # Trf is available, so implement the functionality provided here # in terms of calls to Trf for speed. # ::base64::encode -- # # Base64 encode a given string. # # Arguments: # args ?-maxlen maxlen? ?-wrapchar wrapchar? string # args ?-maxlen maxlen? ?-wrapchar wrapchar? string # If maxlen is 0, the output is not wrapped. # # Results: # A Base64 encoded version of $string, wrapped at $maxlen characters # by $wrapchar. proc ::base64::encode {args} { # Set the default wrapchar and maximum line length to match the output # of GNU uuencode 4.2. Various RFC's allow for different wrapping # characters and wraplengths, so these may be overridden by command line # options. set wrapchar "\n" set maxlen 60 if { [llength $args] == 0 } { error "wrong # args: should be \"[lindex [info level 0] 0]\ ?-maxlen maxlen? ?-wrapchar wrapchar? string\"" } set optionStrings [list "-maxlen" "-wrapchar"] for {set i 0} {$i < [llength $args] - 1} {incr i} { set arg [lindex $args $i] set index [lsearch -glob $optionStrings "${arg}*"] if { $index == -1 } { error "unknown option \"$arg\": must be -maxlen or -wrapchar" } incr i if { $i >= [llength $args] - 1 } { error "value for \"$arg\" missing" } set val [lindex $args $i] # The name of the variable to assign the value to is extracted # from the list of known options, all of which have an # associated variable of the same name as the option without # a leading "-". The [string range] command is used to strip # of the leading "-" from the name of the option. # # FRINK: nocheck set [string range [lindex $optionStrings $index] 1 end] $val } # [string is] requires Tcl8.2; this works with 8.0 too if {[catch {expr {$maxlen % 2}}]} { error "expected integer but got \"$maxlen\"" } set string [lindex $args end] set result [::base64 -mode encode -- $string] set result [string map [list \n ""] $result] if {$maxlen > 0} { set res "" set edge [expr {$maxlen - 1}] while {[string length $result] > $maxlen} { append res [string range $result 0 $edge]$wrapchar set result [string range $result $maxlen end] } if {[string length $result] > 0} { append res $result } set result $res } return $result } # ::base64::decode -- # # Base64 decode a given string. # # Arguments: # string The string to decode. Characters not in the base64 # alphabet are ignored (e.g., newlines) # # Results: # The decoded value. proc ::base64::decode {string} { ::base64 -mode decode -- $string } } else { # Without Trf use a pure tcl implementation namespace eval base64 { variable base64 {} variable base64_en {} # We create the auxiliary array base64_tmp, it will be unset later. set i 0 foreach char {A B C D E F G H I J K L M N O P Q R S T U V W X Y Z \ a b c d e f g h i j k l m n o p q r s t u v w x y z \ 0 1 2 3 4 5 6 7 8 9 + /} { set base64_tmp($char) $i lappend base64_en $char incr i } # # Create base64 as list: to code for instance C<->3, specify # that [lindex $base64 67] be 3 (C is 67 in ascii); non-coded # ascii chars get a {}. we later use the fact that lindex on a # non-existing index returns {}, and that [expr {} < 0] is true # # the last ascii char is 'z' scan z %c len for {set i 0} {$i <= $len} {incr i} { set char [format %c $i] set val {} if {[info exists base64_tmp($char)]} { set val $base64_tmp($char) } else { set val {} } lappend base64 $val } # code the character "=" as -1; used to signal end of message scan = %c i set base64 [lreplace $base64 $i $i -1] # remove unneeded variables unset base64_tmp i char len val namespace export encode decode } # ::base64::encode -- # # Base64 encode a given string. # # Arguments: # args ?-maxlen maxlen? ?-wrapchar wrapchar? string # args ?-maxlen maxlen? ?-wrapchar wrapchar? string # If maxlen is 0, the output is not wrapped. # # Results: # A Base64 encoded version of $string, wrapped at $maxlen characters # by $wrapchar. proc ::base64::encode {args} { set base64_en $::base64::base64_en # Set the default wrapchar and maximum line length to match the output # of GNU uuencode 4.2. Various RFC's allow for different wrapping # characters and wraplengths, so these may be overridden by command line # options. set wrapchar "\n" set maxlen 60 if { [llength $args] == 0 } { error "wrong # args: should be \"[lindex [info level 0] 0]\ ?-maxlen maxlen? ?-wrapchar wrapchar? string\"" } set optionStrings [list "-maxlen" "-wrapchar"] for {set i 0} {$i < [llength $args] - 1} {incr i} { set arg [lindex $args $i] set index [lsearch -glob $optionStrings "${arg}*"] if { $index == -1 } { error "unknown option \"$arg\": must be -maxlen or -wrapchar" } incr i if { $i >= [llength $args] - 1 } { error "value for \"$arg\" missing" } set val [lindex $args $i] # The name of the variable to assign the value to is extracted # from the list of known options, all of which have an # associated variable of the same name as the option without # a leading "-". The [string range] command is used to strip # of the leading "-" from the name of the option. # # FRINK: nocheck set [string range [lindex $optionStrings $index] 1 end] $val } # [string is] requires Tcl8.2; this works with 8.0 too if {[catch {expr {$maxlen % 2}}]} { error "expected integer but got \"$maxlen\"" } set string [lindex $args end] set result {} set state 0 set length 0 # Process the input bytes 3-by-3 binary scan $string c* X foreach {x y z} $X { # Do the line length check before appending so that we don't get an # extra newline if the output is a multiple of $maxlen chars long. if {$maxlen && $length >= $maxlen} { append result $wrapchar set length 0 } append result [lindex $base64_en [expr {($x >>2) & 0x3F}]] if {$y != {}} { append result [lindex $base64_en [expr {(($x << 4) & 0x30) | (($y >> 4) & 0xF)}]] if {$z != {}} { append result \ [lindex $base64_en [expr {(($y << 2) & 0x3C) | (($z >> 6) & 0x3)}]] append result [lindex $base64_en [expr {($z & 0x3F)}]] } else { set state 2 break } } else { set state 1 break } incr length 4 } if {$state == 1} { append result [lindex $base64_en [expr {(($x << 4) & 0x30)}]]== } elseif {$state == 2} { append result [lindex $base64_en [expr {(($y << 2) & 0x3C)}]]= } return $result } # ::base64::decode -- # # Base64 decode a given string. # # Arguments: # string The string to decode. Characters not in the base64 # alphabet are ignored (e.g., newlines) # # Results: # The decoded value. proc ::base64::decode {string} { if {[string length $string] == 0} {return ""} set base64 $::base64::base64 binary scan $string c* X foreach x $X { set bits [lindex $base64 $x] if {$bits >= 0} { if {[llength [lappend nums $bits]] == 4} { foreach {v w z y} $nums break set a [expr {($v << 2) | ($w >> 4)}] set b [expr {(($w & 0xF) << 4) | ($z >> 2)}] set c [expr {(($z & 0x3) << 6) | $y}] append output [binary format ccc $a $b $c] set nums {} } {} } elseif {$bits == -1} { # = indicates end of data. Output whatever chars are left. # The encoding algorithm dictates that we can only have 1 or 2 # padding characters. If x=={}, we have 12 bits of input # (enough for 1 8-bit output). If x!={}, we have 18 bits of # input (enough for 2 8-bit outputs). foreach {v w z} $nums break set a [expr {($v << 2) | (($w & 0x30) >> 4)}] if {$z == {}} { append output [binary format c $a ] } else { set b [expr {(($w & 0xF) << 4) | (($z & 0x3C) >> 2)}] append output [binary format cc $a $b] } tput [binary format cc $a $b] break } else { # RFC 2045 says that line breaks and other characters not part # of the Base64 alphabet must be ignored, and that the decoder # can optionally emit a warning or reject the message. We opt # not to do so, but to just ignore the character. continue } } return $output } } package provide base64 2.2.2 } set decoder_part2 { foreach {file data} $files { set out [open $file w] fconfigure $out -translation binary puts -nonewline $out [base64::decode $data] close $out } } set out [open [lindex $argv 0]-sfx.tcl w] puts $out $decoder_part1 puts $out "set files {" foreach file $argv { set in [open $file r] fconfigure $in -translation binary set data [base64::encode [read $in]] puts $out [list $file $data] close $in } puts $out "}" puts $out $decoder_part2
RS wonders whether Tcllib's base64 could not also be used here?