/usr/share/tcltk/tcllib1.17/treeql/treeql84.tcl is in tcllib 1.17-dfsg-1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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# A generic tree query language in snit
#
# Copyright 2004 Colin McCormack.
# You are permitted to use this code under the same license as tcl.
#
# 20040930 Colin McCormack - initial release to tcllib
#
# RCS: @(#) $Id: treeql84.tcl,v 1.10 2007/06/23 03:39:34 andreas_kupries Exp $
package require Tcl 8.4
package require snit
package require struct::list
package require struct::set
snit::type ::treeql {
variable nodes ;# set of all nodes
variable tree ;# tree over which nodes are defined
variable query ;# full query - ie: 'parent' of this treeql object
# low level accessor to tree
method treeObj {} {
return $tree
}
# apply the [$tree cmd {*}$args] form to each node
# returns the list of results of application
method apply {cmd args} {
set result {}
foreach node $nodes {
if {[catch {
eval [list $tree] $cmd [list $node] $args
} application]} {
upvar ::errorInfo eo
puts stderr "apply: $tree $cmd $node $args -> $application - $eo"
} else {
#puts stderr "Apply: $tree $cmd $node $args -> $application"
foreach a $application {lappend result $a}
}
}
return $result
}
# filter nodes by [$tree cmd {*}$args]
# returns the list of results of application when application is non nil
method filter {cmd args} {
set result {}
foreach node $nodes {
if {[catch {
eval [list $tree] $cmd [list $node] $args
} application]} {
upvar ::errorInfo eo
puts stderr "filter: $tree $cmd $node $args -> $application - $eo"
} else {
#puts stderr "Filter: $tree $cmd $node $args -> $application"
if {$application != {}} {
lappend result $application
}
}
}
return $result
}
# filter nodes by the predicate [$tree cmd {*}$args]
# returns the list of results of application when application is true
method bool {cmd args} {
#puts stderr "Bool: $tree $cmd - $args"
#set result [::struct::list filter $nodes [list $tree $cmd {*}$args]]
#puts stderr "Bool: $tree $cmd - $nodes - $args -> $result"
#return $result
# replaced by tcllib's list filter
set result {}
foreach node $nodes {
if {[catch {
eval [list $tree] $cmd [list $node] $args
} application]} {
upvar ::errorInfo eo
puts stderr "filter: $tree $cmd $node $args -> $application - $eo"
} else {
#puts stderr "bool: $tree $cmd $node $args -> $application - [$tree dump $node]"
if {$application} {
lappend result $node
}
}
}
return $result
}
# applyself - map cmd on $self to each node, discarding null results
method applyself {cmd args} {
set result {}
foreach node $nodes {
if {[catch {
eval [list $query] $cmd [list $node] $args
} application]} {
upvar ::errorInfo eo
puts stderr "applyself: $tree $cmd $node $args -> $application - $eo"
} else {
if {[llength $application]} {
foreach a $application {lappend result $a}
}
}
}
return $result
}
# mapself - map cmd on $self to each node
method mapself {cmd args} {
set result {}
foreach node $nodes {
if {[catch {
eval [list $query] $cmd [list $node] $args
} application]} {
upvar ::errorInfo eo
puts stderr "mapself: $tree $cmd $node $args -> $application - $eo"
} else {
#puts stderr "Mapself: $query $cmd $node $args -> $application"
lappend result $application
}
}
return $result
}
# shim to perform operation $op on attribute $attr of $node
method do_attr {node op attr} {
set attrv [$tree get $node $attr]
#puts stderr "$self do_attr node:'$node' op:'$op' attr:'$attr' attrv:'$attrv'"
return [eval [linsert $op end $attrv]]
}
# filter nodes by predicate [string $op] over attribute $attr
method stringP {op attr args} {
set n {}
set map [$self mapself do_attr [linsert $op 0 string] $attr]
foreach result $map node $nodes {
#puts stderr "$self stringP $op $attr -> $result - $node"
if {$result} {
lappend n $node
}
}
set nodes $n
return $args
}
# filter nodes by negated predicate [string $op] over attribute $attr
method stringNP {op attr args} {
set n {}
set map [$self mapself do_attr [linsert $op 0 string] $attr]
foreach result $map node $nodes {
if {!$result} {
lappend n $node
}
}
set nodes $n
return $args
}
# filter nodes by predicate [expr {*}$op] over attribute $attr
method exprP {op attr args} {
set n {}
set map [$self mapself do_attr [linsert $op 0 expr] $attr]
foreach result $map node $nodes {
if {$result} {
lappend n $node
}
}
set nodes $n
return $args
}
# filter nodes by predicate ![expr {*}$op] over attribute $attr
method exprNP {op attr args} {
set n {}
set map [$self mapself do_attr [linsert $op 0 expr] $attr]
foreach result $map node $nodes {
if {!$result} {
lappend n $node
}
}
set nodes $n
return $args
}
# shim to return string values of attributes matching $pattern of a given $node
method do_get {node pattern} {
set result {}
foreach key [$tree keys $node $pattern] {
set result [concat $result [$tree get $node $key]]
}
return $result
}
# Returns list of attribute values of attributes matching $pattern -
method get {pattern} {
set nodes [$self mapself do_get $pattern]
return {} ;# terminate query
}
# Returns list of attribute values of the current node, in an unspecified order.
method attlist {} {
$self get *
return {} ;# terminate query
}
# Returns list of lists of attributes of each node
method attrs {glob} {
set nodes [$self apply keys $glob]
return {} ;# terminate query
}
# shim to find node ancestors by repetitive [parent]
# as tcllib tree lacks this
method do_ancestors {node} {
set ancestors {}
set rootname [$tree rootname]
while {$node ne $rootname} {
lappend ancestors $node
set node [$tree parent $node]
}
lappend ancestors $rootname
return $ancestors
}
# path from node to root
method ancestors {args} {
set nodes [$self applyself do_ancestors]
return $args
}
# shim to find $node rootpath by repetitive [parent]
# as tcllib tree lacks this
method do_rootpath {node} {
set ancestors {}
set rootname [$tree rootname]
while {$node ne $rootname} {
lappend ancestors $node
set node [$tree parent $node]
}
lappend ancestors $rootname
return [::struct::list reverse $ancestors]
}
# path from root to node
method rootpath {args} {
set nodes [$self applyself do_rootpath]
return $args
}
# node parent
method parent {args} {
set nodes [$self apply parent]
return $args
}
# node children
method children {args} {
set nodes [$self apply children]
return $args
}
# previous sibling
method left {args} {
set nodes [$self apply previous]
return $args
}
# next sibling
method right {args} {
set nodes [$self apply next]
return $args
}
# shim to find left siblings of node, in order of occurrence
method do_previous* {node} {
if {$node == [$tree rootname]} {
set children $node
} else {
set children [$tree children [$tree parent $node]]
}
set index [expr {[lsearch $children $node] - 1}]
return [lrange $children 0 $index]
}
# previous siblings in reverse order
method prev {args} {
set nodes [::struct::list reverse [$self applyself do_previous*]]
return $args
}
# previous siblings in tree order
method esib {args} {
set nodes [$self applyself do_previous*]
return $args
}
# shim to find next siblings in tree order
method do_next* {node} {
if {$node == [$tree rootname]} {
set children $node
} else {
set children [$tree children [$tree parent $node]]
}
set index [expr {[lsearch $children $node] + 1}]
return [lrange $children $index end]
}
# next siblings in tree order
method next {args} {
set nodes [$self applyself do_next*]
return $args
}
# generates the tree root
method root {args} {
set nodes [$tree rootname]
return $args
}
# shim to calculate descendants
method do_subtree {node} {
set nodeset $node
set children [$tree children $node]
foreach child $children {
foreach d [$self do_subtree $child] {lappend nodeset $d}
}
#puts stderr "do_subtree $node -> $nodeset"
return $nodeset
}
# generates proper-descendants of nodes
method descendants {args} {
set desc {}
set nodeset {}
foreach node $nodes {
foreach d [lrange [$self do_subtree $node] 1 end] {lappend nodeset $d}
}
set nodes $nodeset
return $args
}
# generates all subtrees rooted at node
method subtree {args} {
set nodeset {}
foreach node $nodes {
foreach d [$self do_subtree $node] {lappend nodeset $d}
}
set nodes $nodeset
return $args
}
# generates all nodes in the tree
method tree {args} {
set nodes [$self do_subtree [$tree rootname]]
return $args
}
# generates all subtrees rooted at node
#method descendants {args} {
# set nodes [$tree apply descendants]
# return $args
#}
# flattened next subtrees
method forward {args} {
set nodes [$self applyself do_next*] ;# next siblings
$self descendants ;# their proper descendants
return $args
}
# synonym for [forward]
method later {args} {
$self forward
return $args
}
# flattened previous subtrees in tree order
method earlier {args} {
set nodes [$self applyself do_previous*] ;# all earlier siblings
$self descendants ;# their proper descendants
return $args
}
# flattened previous subtrees in reverse tree order
# FIXME - this isn't going to return things in the correct order
method backward {args} {
set nodes [$self applyself do_previous*] ;# all earlier siblings
$self subtree ;# their subtrees
set nodes [::struct::list reverse $nodes] ;# reverse order
return $args
}
# Returns the node type of nodes
method nodetype {} {
set nodes [$self apply get @type]
return {} ;# terminate query
}
# Reduce to nodes of @type $t
method oftype {t args} {
return [eval [linsert $args 0 $self stringP [list equal -nocase $t] @type]]
}
# Reduce to nodes not of @type $t
method nottype {t args} {
return [eval [linsert $args 0 $self stringNP [list equal -nocase $t] @type]]
}
# Reduce to nodes whose @type is one of $attrs
# @type values are assumed to be simple strings
method oftypes {attrs args} {
set n {}
foreach result [$self mapself do_attr list @type] node $nodes {
if {[lsearch $attrs $result] > -1} {
#puts stderr "$self oftypes '$attrs' -> $result - $node"
lappend n $node
}
}
set nodes $n
return $args
}
# Reduce to nodes with attribute $attr (can be a glob)
method hasatt {attr args} {
set nodes [$self bool keyexists $attr]
return $args
}
# Returns values of attribute attname
method attval {attname} {
$self hasatt $attname ;# only nodes with attribute
set nodes [$self apply get $attname] ;# get the attribute nodes
return {} ;# terminate query
}
# Reduce to nodes with attribute $attr of $value
method withatt {attr value args} {
$self hasatt $attr ;# only nodes with attribute
return [eval [linsert $args 0 $self stringP [list equal -nocase $value] $attr]]
}
# Reduce to nodes with attribute $attr of $value
method withatt! {attr val args} {
return [eval [linsert $args 0 $self stringP [list equal $val] $attr]]
}
# Reduce to nodes with attribute $attr value one of $vals
method attof {attr vals args} {
set result {}
foreach node $nodes {
set x [string tolower [[$self treeObj] get $node $attr]]
if {[lsearch $vals $x] != -1} {
lappend result $node
}
}
set nodes $result
return $args
}
# Reduce to nodes whose attribute $attr string matches $match
method attmatch {attr match args} {
$self stringP [linsert $match 0 match] $attr
return $args
}
# Side Effect: set attribute $attr to $val
method set {attr val args} {
$self apply set $attr $val
return $args
}
# Side Effect: unset attribute $attr
method unset {attr args} {
$self apply unset $attr
return $args
}
# apply string operation $op to attribute $attr on each node
method string {op attr} {
set nodes [$self mapself do_attr [linsert $op 0 string] $attr]
return {} ;# terminate query
}
# remove duplicate nodes, preserving order
method unique {args} {
set all {}
array set keys {}
foreach node $nodes {
if {![info exists keys($node)]} {
set keys($node) 1
lappend all $node
}
}
set nodes $all
return $args
}
# construct the set of nodes present in both $nodes and node set $and
method and {and args} {
set nodes [::struct::set intersect $and $nodes]
return $args
}
# return result of new query $query, preserving current node set
method subquery {args} {
set org $nodes ;# save current node set
set new [uplevel 1 [linsert $args 0 $query query]]
set nodes $org ;# restore old node set
return $new
}
# perform a subquery and and in the result
method andq {q args} {
$self and [uplevel 1 [linsert $q 0 $self subquery]]
return $args
}
# construct the set of nodes present in $nodes or node set $or
method or {or args} {
set nodes [::struct::set union $nodes $or]
$self unique
return $args
}
# perform a subquery and or in the result
method orq {q args} {
$self or [uplevel 1 [linsert $q 0 $self subquery]]
return $args
}
# construct the set of nodes present in $nodes but not node set $not
method not {not args} {
set nodes [::struct::set difference $nodes $not]
return $args
}
# perform a subquery and return the set of nodes not in the result
method notq {q args} {
$self not [uplevel 1 [linsert $q 0 $self subquery]]
return $args
}
# select the first of the nodes
method select {args} {
set nodes [lindex $nodes 0]
return $args
}
# perform a subquery then replace the nodeset
method transform {q var body args} {
upvar 1 $var iter
set new {}
foreach n [uplevel 1 [linsert $q 0 $self subquery]] {
set iter $n
switch -exact -- [catch {uplevel 1 $body} result] {
0 {
# ok
lappend new $result
}
1 {
# pass errors up
return -code error $result
}
2 {
# return
set nodes $result
return
}
3 {
# break
break
}
4 {
# continue
continue
}
}
}
set nodes $new
return $args
}
# replace the nodeset
method map {var body args} {
upvar 1 $var iter
set new {}
foreach n $nodes {
set iter $n
switch -exact -- [catch {uplevel 1 $body} result] {
0 {
# ok
lappend new $result
}
1 {
# pass errors up
return -code error $result
}
2 {
# return
set nodes $result
return
}
3 {
# break
break
}
4 {
# continue
continue
}
}
}
set nodes $new
return $args
}
# perform a subquery $query then map $body over results
method foreach {q var body args} {
upvar 1 $var iter
foreach n [uplevel 1 [linsert $q 0 $self subquery]] {
set iter $n
uplevel 1 $body
}
return $args
}
# perform a query, then evaluate $body
method with {q body args} {
# save current node set, implied reset
set org $nodes; set nodes {}
uplevel 1 [linsert $q 0 $self query]
set result [uplevel 1 $body]
# restore old node set
set new $nodes; set nodes $org
return $args
}
# map $body over $nodes
method over {var body args} {
upvar 1 $var iter
set result {}
foreach n $nodes {
set iter $n
uplevel 1 $body
}
return $args
}
# perform the query
method query {args} {
# iterate over the args, treating each as a method invocation
while {$args != {}} {
#puts stderr "query $self $args"
set args [uplevel 1 [linsert $args 0 $query]]
#puts stderr "-> $nodes"
}
return $nodes
}
# append the literal $val to node set
method quote {val args} {
lappend nodes $val
return $args
}
# replace the node set with the literal
method replace {val args} {
set nodes $val
return $args
}
# set nodeset to empty
method reset {args} {
set nodes {}
return $args
}
# delete all nodes in node set
method delete {args} {
foreach node $nodes {
$tree cut $node
}
set nodes {}
return $args
}
# return the node set
method result {} {
return $nodes
}
constructor {args} {
set query [from args -query ""]
if {$query == ""} {
set query $self
}
set nodes [from args -nodes {}]
set tree [from args -tree ""]
uplevel 1 [linsert $args 0 $self query]
}
# Return result, and destroy this query
# useful in constructing a sub-query
method discard {args} {
return [K [$self result] [$self destroy]]
}
proc K {x y} {
set x
}
}
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