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xml.tcl
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xml.tcl
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#!/usr/bin/tclsh
#
# ps3mfw -- PS3 MFW creator
#
# Copyright (C) Anonymous Developers (Code Monkeys)
#
# This software is distributed under the terms of the GNU General Public
# License ("GPL") version 3, as published by the Free Software Foundation.
#
namespace eval ::xml {
proc LoadFile {filename} {
set fd [open $filename r]
set data [read $fd]
close $fd
return [Load $data]
}
proc Load {xml} {
# Remove any unwanted characters that could appear before/after the xml
regsub {^.*?<} $xml {<} xml
regsub {>[^>]*?$} $xml {>} xml
if { $xml == "" } { return "" }
# Remove xml file header and comments
# Here the ".*?" in the regexp means a non greedy matching,
# which means match as little characters as possible.. the reason, here's an example :
# <!-- comment --> <tag/> <!-- comment2 --> <tag2/>
# the regsub {<!--.*-->} would remove from the first <!-- to the last -->
# which means we end up with <tag2/> and we loose <tag/>..
# if it's greedy, it will match all possible chars, with non-greedy,
# it will match only the smallest number: only the comment...
regsub -all {<\?xml.*?\?>} $xml "" xml
regsub -all {<!--.*?-->} $xml "" xml
# Avoid unmatched braces in list, in case we have a left or right accolade in the xml data
set xml [string map {"\{" "&right_accolade;" "\}" "&left_accolade;" "\\" "&escape_char;"} $xml]
regsub -all {>\s*<} [string trim $xml " \r\n\t<>"] "\} \{" xml
set xml [string map {> "\} \{#text \{" < "\}\} \{" } $xml]
set res "" ;# string to collect the result
set stack {} ;# track open tags
set rest {}
foreach item "{$xml}" {
switch -regexp -- $item {
^# {
append res "{[lrange $item 0 end]} " ; #text item
}
^/ {
regexp {/(.+)} $item -> tagname ;# end tag
set expected [lindex $stack end]
if {$tagname!=$expected} {error "$item != $expected"}
set stack [lrange $stack 0 end-1]
append res "\}\} "
}
/$ { # singleton - start and end in one <> group
regexp {([^\s]+)(\s(.+))?/$} $item -> tagname - rest
set rest [regsub -all {\s*([^=\s]+)=\"([^\"]+)\"\s*} $rest {\1 {\2} }]
set rest [regsub -all {\s*([^=\s]+)=\'([^\']+)\'\s*} $rest {\1 {\2} }]
append res "{$tagname [list $rest] {}} "
}
default {
regexp {([^\s]+)(\s(.+))?$} $item -> tagname - rest
set rest [regsub -all {\s*([^=\s]+)=\"([^\"]+)\"\s*} $rest {\1 {\2} }]
set rest [regsub -all {\s*([^=\s]+)=\'([^\']+)\'\s*} $rest {\1 {\2} }]
lappend stack $tagname
append res "\{$tagname [list $rest] \{"
}
}
if {[llength $rest]%2} {error "att's not paired: $rest"}
}
if [llength $stack] {error "unresolved: $stack"}
# Unescape chars and accolades
string map {"\} \}" "\}\}" "&right_accolade;" "\\\{" "&left_accolade;" "\\\}" "&escape_char;" "\\\\"} [xmldecode [lindex $res 0] 1]
}
proc Print {list {depth -1}} {
set res ""
switch -- [llength $list] {
2 {
append res [xmlencode [lindex $list 1]]
}
3 {
foreach {tag attributes children} $list break
if {$depth > 0} {
append res [string repeat " " $depth]
}
append res <$tag
foreach {name value} $attributes {
append res " $name=\"$value\""
}
if {[llength $children] == 1 && [llength [lindex $children 0]] == 2} {
append res >
append res [Print [lindex $children 0]]
append res </$tag>
if {$depth >= 0} {
append res "\n"
}
} elseif {[llength $children] > 0} {
set child_depth $depth
append res >
if {$depth >= 0} {
append res "\n"
incr child_depth
}
foreach child $children {
append res [Print $child $child_depth]
}
if {$depth > 0} {
append res [string repeat " " $depth]
}
append res </$tag>
if {$depth >= 0} {
append res "\n"
}
} else {
append res />
if {$depth >= 0} {
append res "\n"
}
}
}
default {error "could not parse $list"}
}
return $res
}
proc xmlencode {string} {
return [string map {
"<" "<"
">" ">"
"\"" """
"\t" "	"
"\r" "
"
"\n" "
"} $string]
}
proc xmldecode {string {escape 0}} {
set parsed ""
while {[set pos [string first "&#x" $string]] != -1 } {
append parsed [string range $string 0 [expr {$pos - 1}]]
incr pos 3
set byte ""
while {[set char [string range $string $pos $pos]] != ";" } {
append byte $char
incr pos
}
if {[expr {[string length $byte] % 2}] == 1} {
set byte "[string range $byte 0 end-1]0[string range $byte end end]"
}
set value [binary format H* $byte]
if {$escape } {
if {$value == "\{" } {
set value "\\\{"
} elseif {$value == "\}" } {
set value "\\\}"
} elseif {$value == "\\" } {
set value "\\\\"
}
}
append parsed $value
set string [string range $string [expr {$pos + 1}] end]
}
append parsed $string
return [string map { "<" "<" ">" ">" "&" "&" """ "\"" "'" "'" } $parsed]
}
proc PrettyPrint { xml } {
return "<?xml version=\"1.0\" encoding=\"UTF-8\"?>\n[Print [Load $xml] 0]"
}
proc SaveToFile { list filename {pretty 1} } {
if {$pretty} {
set depth 0
} else {
set depth -1
}
set xml [Print $list $depth]
set fd [open $filename w]
puts $fd $xml
close $fd
}
proc GetNodeIndices {list find {no 0} {stack ""}} {
variable xmlTag_occurences
if {$stack == "" } {
set xmlTag_occurences 0
}
set current_stack $stack
set index -1
foreach { tag attributes content} $list {
incr index
set current_stack "$stack:$tag"
if {$current_stack == $find || $current_stack == ":$find" } {
#status_log "Found it in $current_stack\n" red
if { $no == $xmlTag_occurences } {
return 0
} else {
incr xmlTag_occurences
}
return ""
} else {
if {[string first $current_stack $find] == -1 &&
[string first $current_stack ":$find"] == -1 } {
#status_log "$find not in $current_stack" red
continue
} else {
set index 2
set subindex 0
#status_log "$find is in a subkey of $current_stack\n" red
foreach subkey $content {
set result [GetNodeIndices $subkey $find $no $current_stack]
if { $result != "" } {
eval lappend index $subindex $result
return $index
}
incr subindex
}
}
}
}
return ""
}
proc GetNodeByIndex {list indices} {
if {$indices == ""} {
return ""
}
set indices [lrange $indices 0 end-1]
if {$indices == {}} {
return $list
} else {
return [eval lindex [list $list] $indices]
}
}
proc GetNode {list find {no 0}} {
return [GetNodeByIndex $list [GetNodeIndices $list $find $no]]
}
proc GetData {list find {no 0}} {
set node [GetNode $list $find $no]
if {$node != ""} {
foreach { tag attributes children} $node break
foreach child $children {
if {[llength $child] == 2} {
return [string map {"\\\\" "\\" "\\\{" "\{" "\\\}" "\}" } [lindex $child 1]]
}
}
}
return ""
}
proc GetAttribute { list find attribute_name {no 0}} {
set node [GetNode $list $find $no]
if {$node != ""} {
foreach { tag attributes children} $node break
array set attributes_arr $attributes
if { [info exists attributes_arr($attribute_name)] } {
return [string map {"\\\\" "\\" "\\\{" "\{" "\\\}" "\}" } [set attributes_arr($attribute_name)]]
}
}
return ""
}
proc ListChildren {list find {no 0}} {
set node [GetNode $list $find $no]
if {$node != ""} {
foreach { tag attributes children} $node break
set tags [list]
foreach child $children {
if {[llength $child] == 3} {
lappend tags [lindex $child 0]
}
}
return $tags
}
return ""
}
proc GetAttributes { list find {no 0}} {
set node [GetNode $list $find $no]
if {$node != ""} {
foreach { tag attributes children} $node break
return $attributes
}
return ""
}
proc ListAttributes { list find {no 0}} {
array set attributes [GetAttributes $list $find $no]
return [array names attributes]
}
proc ReplaceNode {list indices node} {
return [__modifyNode $list $indices $node "replace"]
}
proc InsertNode {list indices node} {
return [__modifyNode $list $indices $node "insert"]
}
proc RemoveNode {list indices} {
return [__modifyNode $list $indices {} "remove"]
}
proc GetNodeIndicesByAttribute {list find attribute value {no 0}} {
regsub {:$} $find {} find
regsub {.*:([^:]+)$} $find {\1} tag
set i -1
set index 0
while {1} {
incr i
set n [GetNode $list $find $i]
if {$n == "" } break
set key [GetAttribute $n $tag $attribute]
if {$key == $value} {
if {$no == $index} {
return [GetNodeIndices $list $find $i]
} else {
incr index
}
}
}
return ""
}
proc GetNodeByAttribute {list find attribute value {no 0}} {
return [GetNodeByIndex $list [GetNodeIndicesByAttribute $list $find $attribute $value $no]]
}
# Helper Functions
proc __lmod_r {list indices mod {val {}}} {
if { [llength $indices] == 0 } {
return $val
} elseif {[llength $indices] == 1} {
if {$mod == "insert"} {
return [linsert $list [lindex $indices 0] $val]
} elseif {$mod == "remove"} {
return [lreplace $list [lindex $indices 0] [lindex $indices 0]]
} else {
return [lreplace $list [lindex $indices 0] [lindex $indices 0] $val]
}
} else {
return [lreplace $list [lindex $indices 0] [lindex $indices 0] [__lmod_r [lindex $list [lindex $indices 0]] [lrange $indices 1 end] $mod $val]]
}
}
proc __modifyNode {list indices node operation} {
set indices [lrange $indices 0 end-1]
if {$indices == {}} {
return $node
} else {
return [__lmod_r $list $indices $operation $node]
}
}
}