/usr/share/tcltk/tcllib1.16/amazon-s3/xsxp.tcl is in tcllib 1.16-dfsg-2.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 177 178 179 180 181 182 183 184 185 186 187 188 189 190 191 192 193 194 195 196 197 198 199 200 201 202 203 204 205 206 207 208 209 210 211 212 213 214 215 216 217 218 219 220 221 222 223 224 225 226 227 228 229 230 231 232 233 234 235 236 237 238 239 240 241 242 243 244 245 246 247 248 249 250 251 252 253 | # xsxp.tcl --
#
###Abstract
# Extremely Simple XML Parser
#
# This is pretty lame, but I needed something like this for S3,
# and at the time, TclDOM would not work with the new 8.5 Tcl
# due to version number problems.
#
# In addition, this is a pure-value implementation. There is no
# garbage to clean up in the event of a thrown error, for example.
# This simplifies the code for sufficiently small XML documents,
# which is what Amazon's S3 guarantees.
#
###Copyright
# Copyright (c) 2006 Darren New.
# All Rights Reserved.
# NO WARRANTIES OF ANY TYPE ARE PROVIDED.
# COPYING OR USE INDEMNIFIES THE AUTHOR IN ALL WAYS.
# See the license terms in LICENSE.txt
#
###Revision String
# SCCS: %Z% %M% %I% %E% %U%
# xsxp::parse $xml
# Returns a parsed XML, or PXML. A pxml is a list.
# The first element is the name of the tag.
# The second element is a list of name/value pairs of the
# associated attribues, if any.
# The third thru final values are recursively PXML values.
# If the first element (element zero, that is) is "%PCDATA",
# then the attributes will be emtpy and the third element
# will be the text of the element.
# xsxp::fetch $pxml $path ?$part?
# $pxml is a parsed XML, as returned from xsxp::parse.
# $path is a list of elements. Each element is the name of
# a child to look up, optionally followed by a hash ("#")
# and a string of digits. An emtpy list or an initial empty
# element selects $pxml. If no hash sign is present, the
# behavior is as if "#0" had been appended to that element.
# An element of $path scans the children at the indicated
# level for the n'th instance of a child whose tag matches
# the part of the element before the hash sign. If an element
# is simply "#" followed by digits, that indexed child is
# selected, regardless of the tags in the children. So
# an element of #3 will always select the fourth child
# of the node under consideration.
# $part defaults to %ALL. It can be one of the following:
# %ALL - returns the entire selected element.
# %TAGNAME - returns lindex 0 of the selected element.
# %ATTRIBUTES - returns lindex 1 of the selected element.
# %CHILDREN - returns lrange 2 through end of the selected element,
# resulting in a list of elements being returned.
# %PCDATA - returns a concatenation of all the bodies of
# direct children of this node whose tag is %PCDATA.
# Throws an error if no such children are found. That
# is, part=%PCDATA means return the textual content found
# in that node but not its children nodes.
# %PCDATA? - like %PCDATA, but returns an empty string if
# no PCDATA is found.
# xsxp::fetchall $pxml_list $path ?$part?
# Iterates over each PXML in $pxml_list, selecting the indicated
# path from it, building a new list with the selected data, and
# returning that new list. For example, $pxml_list might be
# the %CHILDREN of a particular element, and the $path and $part
# might select from each child a sub-element in which we're interested.
# xsxp::only $pxml $tagname
# Iterates over the direct children of $pxml and selects only
# those with $tagname as their tag. Returns a list of matching
# elements.
# xsxp::prettyprint $pxml
# Outputs to stdout a nested-list notation of the parsed XML.
package require xml
package provide xsxp 1.0
namespace eval xsxp {
variable Stack
variable Cur
proc Characterdatacommand {characterdata} {
variable Cur
# puts "characterdatacommand $characterdata"
set x [list %PCDATA {} $characterdata]
lappend Cur $x
}
proc Elementstartcommand {name attlist args} {
# puts "elementstart $name {$attlist} $args"
variable Stack
variable Cur
lappend Stack $Cur
set Cur [list $name $attlist]
}
proc Elementendcommand {args} {
# puts "elementend $args"
variable Stack
variable Cur
set x [lindex $Stack end]
lappend x $Cur
set Cur $x
set Stack [lrange $Stack 0 end-1]
}
proc parse {xml} {
variable Cur
variable Stack
set Cur {}
set Stack {}
set parser [::xml::parser \
-characterdatacommand [namespace code Characterdatacommand] \
-elementstartcommand [namespace code Elementstartcommand] \
-elementendcommand [namespace code Elementendcommand] \
-ignorewhitespace 1 -final 1
]
$parser parse $xml
$parser free
# The following line is needed because the close of the last element
# appends the outermost element to the item on the top of the stack.
# Since there's nothing on the top of the stack at the close of the
# last element, we append the current element to an empty list.
# In essence, since we don't really have a terminating condition
# on the recursion, an empty stack is still treated like an element.
set Cur [lindex $Cur 0]
set Cur [Normalize $Cur]
return $Cur
}
proc Normalize {pxml} {
# This iterates over pxml recursively, finding entries that
# start with multiple %PCDATA elements, and coalesces their
# content, so if an element contains only %PCDATA, it is
# guaranteed to have only one child.
# Not really necessary, given definition of part=%PCDATA
# However, it makes pretty-prints nicer (for AWS at least)
# and ends up with smaller lists. I have no idea why they
# would put quotes around an MD5 hash in hex, tho.
set dupl 1
while {$dupl} {
set first [lindex $pxml 2]
set second [lindex $pxml 3]
if {[lindex $first 0] eq "%PCDATA" && [lindex $second 0] eq "%PCDATA"} {
set repl [list %PCDATA {} [lindex $first 2][lindex $second 2]]
set pxml [lreplace $pxml 2 3 $repl]
} else {
set dupl 0
for {set i 2} {$i < [llength $pxml]} {incr i} {
set pxml [lreplace $pxml $i $i [Normalize [lindex $pxml $i]]]
}
}
}
return $pxml
}
proc prettyprint {pxml {chan stdout} {indent 0}} {
puts -nonewline $chan [string repeat " " $indent]
if {[lindex $pxml 0] eq "%PCDATA"} {
puts $chan "%PCDATA: [lindex $pxml 2]"
return
}
puts -nonewline $chan "[lindex $pxml 0]"
foreach {name val} [lindex $pxml 1] {
puts -nonewline $chan " $name='$val'"
}
puts $chan ""
foreach node [lrange $pxml 2 end] {
prettyprint $node $chan [expr $indent+1]
}
}
proc fetch {pxml path {part %ALL}} {
set path [string trim $path /]
if {-1 != [string first / $path]} {
set path [split $path /]
}
foreach element $path {
if {$pxml eq ""} {return ""}
foreach {tag count} [split $element #] {
if {$tag ne ""} {
if {$count eq ""} {set count 0}
set pxml [lrange $pxml 2 end]
while {0 <= $count && 0 != [llength $pxml]} {
if {$tag eq [lindex $pxml 0 0]} {
incr count -1
if {$count < 0} {
# We're done. Go on to next element.
set pxml [lindex $pxml 0]
} else {
# Not done yet. Throw this away.
set pxml [lrange $pxml 1 end]
}
} else {
# Not what we want.
set pxml [lrange $pxml 1 end]
}
}
} else { # tag eq ""
if {$count eq ""} {
# Just select whole $pxml
} else {
set pxml [lindex $pxml [expr {2+$count}]]
}
}
break
} ; # done the foreach [split] loop
} ; # done all the elements.
if {$part eq "%ALL"} {return $pxml}
if {$part eq "%ATTRIBUTES"} {return [lindex $pxml 1]}
if {$part eq "%TAGNAME"} {return [lindex $pxml 0]}
if {$part eq "%CHILDREN"} {return [lrange $pxml 2 end]}
if {$part eq "%PCDATA" || $part eq "%PCDATA?"} {
set res "" ; set found 0
foreach elem [lrange $pxml 2 end] {
if {"%PCDATA" eq [lindex $elem 0]} {
append res [lindex $elem 2]
set found 1
}
}
if {$found || $part eq "%PCDATA?"} {
return $res
} else {
error "xsxp::fetch did not find requested PCDATA"
}
}
return $pxml ; # Don't know what he's after
}
proc only {pxml tag} {
set res {}
foreach element [lrange $pxml 2 end] {
if {[lindex $element 0] eq $tag} {
lappend res $element
}
}
return $res
}
proc fetchall {pxml_list path {part %ALL}} {
set res [list]
foreach pxml $pxml_list {
lappend res [fetch $pxml $path $part]
}
return $res
}
}
namespace export xsxp parse prettyprint fetch
|