/usr/share/tcltk/tklib0.6/diagrams/attributes.tcl is in tklib 0.6-2.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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## (C) 2010 Andreas Kupries <andreas_kupries@users.sourceforge.net>
## BSD Licensed
# # ## ### ##### ######## ############# ######################
#
# diagram attribute database, basic data plus extensibility features.
##
# # ## ### ##### ######## ############# ######################
## Requisites
package require Tcl 8.5 ; # Want the nice things it brings (dicts, {*}, etc.)
package require snit ; # Object framework.
package require struct::queue ; # Word storage when processing attribute arguments.
# # ## ### ##### ######## ############# ######################
## Implementation
snit::type ::diagram::attribute {
# # ## ### ##### ######## ############# ######################
## Public API :: Attribute extensibility
method new {name args} {
array set spec $args
if {![info exists spec(key)]} { set spec(key) $name }
set key $spec(key)
set getvalue [GetFunction spec]
set ovalidate [ValidateFunction spec] ; # snit validation type, or API compatible.
set otransform [TransformFunction spec] ; # o* <=> optional function.
set merger [MergeFunction spec $key]
set odefault [DefaultFunction spec $key]
set myattrp($name) [ProcessingFunction $getvalue $ovalidate $otransform $merger]
if {![llength $odefault]} return
set myattrd($key) $odefault
{*}$odefault init
return
}
method {unknown =} {unknowncmd} {
set myunknown [list $unknowncmd]
return
}
method {unknown +} {unknowncmd} {
lappend myunknown $unknowncmd
return
}
# # ## ### ##### ######## ############# ######################
## Public API :: attribute processing, integrated loading of requested defaults.
method attributes {shape words required} {
return [$self defaults [$self process $shape $words] $required]
}
method process {shape words} {
if {![llength $words]} {
return {}
}
set attributes [ReadySame $shape]
{*}$wq clear
{*}$wq put {*}$words
while {[{*}$wq size]} {
set aname [{*}$wq get]
set shape [dict get $attributes /shape]
if {[{*}$wq size]} {
#puts A|do|$aname|/$shape|\t\t(([{*}$wq peek [{*}$wq size]]))
} else {
#puts A|do|$aname|/$shape|\t\t(())
}
# Check for a shape-specific attribute first, then try the
# name as is.
if {[info exists myattrp(${shape}::$aname)]} {
{*}$myattrp(${shape}::$aname) $wq attributes
continue
} elseif {[info exists myattrp($aname)]} {
{*}$myattrp($aname) $wq attributes
continue
}
#puts A|unknown|$aname|
# Hooks for unknown names, for dynamic extension.
{*}$wq unget $aname
set ok 0
foreach hook $myunknown {
#puts A|unknown/$shape|\t\t(([{*}$wq peek [{*}$wq size]]))
if {[{*}$hook $shape $wq]} {
#puts A|unknown|taken|$hook
set ok 1
break
}
}
if {$ok} continue
BadAttribute $shape $wq
}
#puts A|done|$attributes|
SaveSame $attributes
return $attributes
}
method defaults {attributes required} {
# Note: All default hooks are run, even if the key is already
# specified. This gives the hook the opportunity to not only
# fill in defaults, but to compute and store derived
# information (from multiple other attributes) as well. An
# example using this ability are the Waypoint and ArcLocation
# handlers which essentially precompute large parts of their
# elements' geometry.
foreach key $required {
#if {[dict exists $attributes $key]} continue
if {![info exists myattrd($key)]} {
#return -code error "Unable to determine a default for \"$key\""
continue
}
{*}$myattrd($key) fill attributes
}
return $attributes
}
method set {attributes} {
dict for {key value} $attributes {
if {![info exists myattrd($key)]} continue
{*}$myattrd($key) set $key $value
}
return
}
# # ## ### ##### ######## ############# ######################
## Public API :: Instance construction
constructor {core} {
# Core attributes (shape redefinition, history access (same))
set mycore $core
#set myunknown [myproc BadAttribute]
$self new /shape merge [mymethod Merge/shape]
$self new same get [mymethod GetSame] merge [mymethod MergeSame]
install wq using struct::queue ${selfns}::WQ
# Queue Tracer
if {0} {set wq [list ::apply [list {args} {
puts $args
uplevel 1 $args
}] $wq]}
return
}
# # ## ### ##### ######## ############# ######################
##
proc ReadySame {shape} {
upvar 1 mycurrentsame mycurrentsame mysame mysame
set mycurrentsame {}
catch {
set mycurrentsame $mysame($shape)
}
return [list /shape $shape]
}
proc SaveSame {attributes} {
upvar 1 mysame mysame
set shape [dict get $attributes /shape]
set mysame($shape) $attributes
return
}
# # ## ### ##### ######## ############# ######################
proc BadAttribute {shape words} {
return -code error "Expected attribute, got \"[{*}$words peek]\""
}
# # ## ### ##### ######## ############# ######################
method GetSame {words_dummy} {
return $mycurrentsame
}
method MergeSame {key samedict attributes} {
# key == "same"
return [dict merge $attributes $samedict]
}
method Merge/shape {key newshape attributes} {
# key == "/shape"
ReadySame $newshape
dict set attributes /shape $newshape
return $attributes
}
# # ## ### ##### ######## ############# ######################
method Get {words} {
return [{*}$words get]
}
# # ## ### ##### ######## ############# ######################
method Set {key value attributes} {
#puts AM.=|$key||$value|\t|$attributes|
dict set attributes $key $value
#puts AM:=|$attributes|
return $attributes
}
method Lappend {key value attributes} {
#puts AM++|$key||$value|\t|$attributes|
dict lappend attributes $key $value
#puts AM:=|$attributes|
return $attributes
}
# # ## ### ##### ######## ############# ######################
method Linked {key varname defaultvalue cmd args} {
#puts "Linked ($key $varname $defaultvalue) $cmd $args"
$self Linked_ $cmd $key $varname $defaultvalue {*}$args
}
method {Linked_ init} {key varname defaultvalue} {
$mycore state set $varname $defaultvalue
return
}
method {Linked_ set} {key varname defaultvalue _key newvalue} {
$mycore state set $varname $newvalue
return
}
method {Linked_ fill} {key varname defaultvalue av} {
upvar 2 $av attributes ; # Bypass the 'Linked' dispatcher.
#puts LINK|$key|$varname|-|$attributes|-|[$mycore state get $varname]|
if {[dict exists $attributes $key]} return
dict set attributes $key [$mycore state get $varname]
return
}
# # ## ### ##### ######## ############# ######################
## Helper commands processing an attribute specification into a set of anonymous functions
proc GetFunction {sv} {
upvar 1 $sv spec selfns selfns
if {[info exists spec(get)]} { return $spec(get) }
return [mymethod Get]
}
proc ValidateFunction {sv} {
upvar 1 $sv spec
if {[info exists spec(type)]} {
set f $spec(type)
if {[llength $f] > 1} {
# The specification is type + arguments. Create a
# proper object by inserting a name into the command and then running it.
set f [eval [linsert $f 1 AttrType%AUTO%]]
}
return [list {*}$f validate]
}
return {}
}
proc TransformFunction {sv} {
upvar 1 $sv spec
if {[info exists spec(transform)]} { return $spec(transform) }
return {}
}
proc MergeFunction {sv key} {
upvar 1 $sv spec selfns selfns
if {[info exists spec(merge)]} { return [list {*}$spec(merge) $key] }
if {![info exists spec(aggregate)]} {
set spec(aggregate) 0
}
if {$spec(aggregate)} {
return [mymethod Lappend $key]
} else {
return [mymethod Set $key]
}
}
proc DefaultFunction {sv key} {
upvar 1 $sv spec selfns selfns
if {[info exists spec(default)]} { return $spec(default) }
if {[info exists spec(linked)]} {
#lassign $spec(linked) varname defaultvalue
return [mymethod Linked $key {*}$spec(linked)]
}
return {}
}
proc ProcessingFunction {get validate transform merge} {
# partial functions.
# validate, transform - optional
# get, merge - required
# Types
# get : wordvar -> value
# transform : value -> value
# validate : value -> value
# merge : value -> dict -> dict
if {[llength $validate] && [llength $transform]} {
return [list ::apply [list {get validate transform merge words av} {
upvar 1 $av attributes
set value [{*}$get $words]
set value [{*}$transform $value]
set value [{*}$validate $value]
set attributes [{*}$merge $value $attributes]
}] $get $validate $transform $merge]
} elseif {[llength $validate]} {
return [list ::apply [list {get validate merge words av} {
upvar 1 $av attributes
set value [{*}$get $words]
set value [{*}$validate $value]
set attributes [{*}$merge $value $attributes]
}] $get $validate $merge]
} elseif {[llength $transform]} {
return [list ::apply [list {get transform merge words av} {
upvar 1 $av attributes
set value [{*}$get $words]
set value [{*}$transform $value]
set attributes [{*}$merge $value $attributes]
}] $get $transform $merge]
} else {
return [list ::apply [list {get merge words av} {
upvar 1 $av attributes
set value [{*}$get $words]
set attributes [{*}$merge $value $attributes]
}] $get $merge]
}
}
# # ## ### ##### ######## ############# ######################
## Instance data. Maps from attribute names and dictionary keys to
## relevant functions for processing input and defaults.
variable mycore {}
variable myunknown {}
variable myattrp -array {} ; # attribute command -> processing function
variable myattrd -array {} ; # attribute key -> default management function
# History stack, one level deep, keyed by shape name.
variable mysame -array {}
variable mycurrentsame {}
component wq ; # Storage for the words we are processing as attributes.
##
# # ## ### ##### ######## ############# ######################
}
# # ## ### ##### ######## ############# ######################
## Ready
package provide diagram::attribute 1
|