Updated 2013-01-18 04:51:40 by pooryorick

Default Tree Widget



Heavily Configured Widget:


AJB The purpose was to build a tree widget that doesn't require any other packages or extensions. That is very flexible, but also looks good without any configuration. That has similar mouse and keybindings as tree widgets in common 'mainstream' software. And, of course, easy to use and implement.

I started with code from [1], and planned on adjusting it to suit my needs. However, in the end, there is not much that hasn't been changed, therefore it seemed appropriate to post it here. Enjoy

I would welcome comments or ideas.

The code:
package require Tk

namespace eval ::tktree {

    # Images used for open and close state of subgroups
    set ::tktree::imgcollapse [image create photo .tktreeopenbm -data {
    set ::tktree::imgexpand [image create photo .tktreeclosebm -data {
    ###Default images for groups and children
    set ::tktree::imgsubgroups [image create photo .tktreeimgfolder -data {
    set ::tktree::imgchildren [image create photo .tktreeimgfile -data {
    #### Swtich all subgroups of a layer to open or close
    proc ::tktree::switchlayer {win opn {layer /}} {
        variable cfg
        foreach child $cfg($win,$layer:subgroups) {
            set cfg($win,$child:open) $opn
            switchlayer $win $opn $child
        buildwhenidle $win
    ####  will open or close the item given
    proc ::tktree::switchstate {win item} {
        set ::tktree::cfg($win,$item:open) [expr ! $::tktree::cfg($win,$item:open)]
        buildwhenidle $win
    #### Select the next item up or down
    proc ::tktree::updown {win down} {
        variable cfg
        set index [lsearch -exact $cfg($win,sortlist) $cfg($win,selection)]
        if {$down} {incr index} {incr index -1}
        if {$index < 0} {
            set index end
        } elseif {$index >= [llength $cfg($win,sortlist)]} {
            set index 0
        setselection $win [lindex $cfg($win,sortlist) $index]
    #### left-right button binding commands
    proc ::tktree::leftright {win right} {
        variable cfg
        set item $cfg($win,selection)
        set index [lsearch -exact $cfg($win,sortlist) $item]
        set parentindex [lsearch -exact $cfg($win,sortlist) [file dirname $item]]
        if {$parentindex == -1} {set parentindex [expr $index - 1]}
        if {$cfg($win,$item:group)} {
            if {$right} {
                if {$cfg($win,$item:open)} {incr index} {set cfg($win,$item:open) 1}
            } else {
                if {$cfg($win,$item:open)} {set cfg($win,$item:open) 0} {set index $parentindex}
        } else {
            if {$right} {incr index} {set index $parentindex}
        if {$index < 0} {set index end} elseif {$index >= [llength $cfg($win,sortlist)]} {set index 0}
        setselection $win [lindex $cfg($win,sortlist) $index]
        buildwhenidle $win
    #### will return the pathname of the item at x and y cooridinates
    proc ::tktree::labelat {win x y} {
        set x [$win canvasx $x]; set y [$win canvasy $y]
        foreach m [$win find overlapping $x $y $x $y] {
            if {[info exists ::tktree::cfg($win,tag:$m)]} {return $::tktree::cfg($win,tag:$m)}
        return ""

    #### will return the path of the current selection in the given tree widget
    proc ::tktree::getselection {win} {
        return $::tktree::cfg($win,selection)

    #### adjust the scrollview to show the selected item as needed
    proc ::tktree::scrolladjust {win tag} {
        set item [$win bbox $tag]
        set region [$win cget -scrollregion]
        foreach {axis idx1 idx2} {yview 1 3 xview 0 2} {
            set range [expr abs([lindex $region $idx2]) - abs([lindex $region $idx1])]
            set itemtop [lindex $item $idx1];  set itembot [lindex $item $idx2]
            set viewtop [expr $range * [lindex [$win $axis] 0]]
            set viewbot [expr $range * [lindex [$win $axis] 1]]
            if {$itembot > $viewbot} {$win $axis moveto [expr ($itembot. - $viewbot + $viewtop) / $range]}
            if {$itemtop < $viewtop} {$win $axis moveto [expr $itemtop. / $range]}
    #### will set the current selection to the given item on the given tree
    proc ::tktree::setselection {win item} {
        variable cfg
        if {![llength $cfg($win,sortlist)]} {return}
        if {$item eq ""} {set item [lindex $cfg($win,sortlist) 0]}
        if {![info exists cfg($win,$item:tag)]} {set item [lindex $cfg($win,sortlist) 0]}
        if {[$win gettags $cfg($win,$item:tag)] ne ""} {
            $win select from $cfg($win,$item:tag) 0
            $win select to $cfg($win,$item:tag) end
            set cfg($win,selection) $item
            scrolladjust $win $cfg($win,$item:tag)
        } {
            setselection $win "/[lindex $cfg($win,/:sortlist) 0]"

    #### will delete the item given from the tree given
    proc ::tktree::delitem {win item} {
        variable cfg
        if {$item eq "/"} {
            array unset cfg $win,* ; catch {destroy $win}
        } {
            set group [file dirname $item]
            if {$cfg($win,$item:group)} {set type subgroups} {set type children}
            set index [lsearch -exact $cfg($win,$group:$type) $item]
            set cfg($win,$group:$type) [lreplace $cfg($win,$group:$type) $index $index]
            array unset cfg $win,$item*
            buildwhenidle $win

    #### create a new item in the tree and rebuild the widget
    proc ::tktree::newitem {win item args} {
        variable cfg
        if {[string index $item 0] ne "/"} {set item /$item}
        if {[string index $item end] eq "/"} {
            set subgroup 1
            set type subgroups
            set item [string range $item 0 end-1]
            set cfg($win,$item:command) [list ::tktree::switchstate $win $item]
        } {
            set subgroup 0
            set type children
            set cfg($win,$item:command) {}
        #Build parent group if needed
        set group [file dirname $item]
        if {![info exists cfg($win,$group:open)]} {newitem $win "$group\/"}
        lappend cfg($win,$group:$type) $item
        #Configure the new item
        set cfg($win,$item:group) $subgroup
        set cfg($win,$item:subgroups) {}
        set cfg($win,$item:children) {}
        set cfg($win,$item:sortlist) {}
        set cfg($win,$item:tags) {}
        set cfg($win,$item:open) 0
        set cfg($win,$item:image) {}
        set cfg($win,$item:textcolor) $cfg($win,textcolor)
        set cfg($win,$item:font) $cfg($win,font)
        if {$cfg($win,images)} {set cfg($win,$item:image) [eval list \$::tktree::img$type]}
        foreach {confitem confval} $args {
            switch -exact -- $confitem {
                -textcolor  {set cfg($win,$item:textcolor) $confval}
                -command    {set cfg($win,$item:command)   $confval}
                -image      {set cfg($win,$item:image)     $confval}
                -font       {set cfg($win,$item:font)      $confval}
        buildwhenidle $win

    #### Draw the given layer of the tree on the canvas starting at xposition
    proc ::tktree::buildlayer {win layer xpos} {
        variable cfg
        #Record y positions for vertical line later on
        set ystart $cfg($win,y); set yend $cfg($win,y)
        if {$layer eq "/"} {set cfg($win,sortlist) ""}
        foreach child $cfg($win,$layer:sortlist) {
            lappend cfg($win,sortlist) $child
            #Check spacing required for images
            set imgwidth 0; set imgheight 0
            if {[string length $cfg($win,$child:image)]} {
                set imgwidth [expr  ([image width $cfg($win,$child:image)] + 2) / 2]
                set imgheight [expr ([image height $cfg($win,$child:image)] + 2) / 2]
            #find X-axis points for image, horiz line, and text
            if {$imgwidth} {
                set centerX [expr $imgwidth + $xpos + 7]
                set rightX  [expr $xpos + 7]
                set textX   [expr ($imgwidth * 2) + $xpos + 10]
            } {
                set centerX [expr $xpos + 10]
                set rightX  [expr $centerX + 4]
                set textX   [expr $rightX + 1]
            #Find the proper amount to increment the y axis
            set fontheight [lindex [font metrics $cfg($win,$child:font)] 5]
            set yincr [expr ($fontheight + 1) / 2]
            if {$imgheight > $yincr} {set yincr $imgheight}
            incr cfg($win,y) $yincr
            #Draw the horizonal line
            $win create line $xpos $cfg($win,y) $rightX $cfg($win,y) -fill $cfg($win,linecolor)
            set yend $cfg($win,y)
            #Draw the image, if it exists
            if {$imgwidth} {
                set it [$win create image $centerX $cfg($win,y) -image $cfg($win,$child:image)]
                $win bind $it <1> [list ::tktree::setselection $win $child]
            #Draw text and store tags for reference
            set cfg($win,$child:tag) [$win create text $textX $cfg($win,y) \
                    -text [file tail $child] -font $cfg($win,$child:font) -anchor w -tags x -fill $cfg($win,$child:textcolor)]
            set cfg($win,tag:$cfg($win,$child:tag)) $child
            #Command binding
            $win bind $cfg($win,$child:tag) <1> [list ::tktree::setselection $win $child]
            $win bind $cfg($win,$child:tag) <Double-1> $cfg($win,$child:command)
            #next step up on the y axis
            incr cfg($win,y) $yincr
            #If its a group, add open-close functionality
            if {$cfg($win,$child:group)} {
                if {$cfg($win,$child:open)} {set img collapse} {set img expand}
                set ocimg [$win create image $xpos [expr $cfg($win,y) - $yincr] -image [eval list \$::tktree::img$img]]
                $win bind $ocimg <1> [list ::tktree::switchstate $win $child]
                if {$cfg($win,$child:open)} {buildlayer $win $child $centerX}
        #Vertical line
        $win lower [$win create line $xpos [expr $ystart - 7] $xpos $yend -fill $cfg($win,linecolor)]

    #### sort the layer by subgroups then children
    proc ::tktree::sortlayer {win {layer /}} {
        variable cfg
        set cfg($win,$layer:subgroups) [lsort -dictionary $cfg($win,$layer:subgroups)]
        set cfg($win,$layer:children) [lsort -dictionary $cfg($win,$layer:children)]
        set cfg($win,$layer:sortlist) [join [list $cfg($win,$layer:subgroups) $cfg($win,$layer:children)]]
        foreach group $cfg($win,$layer:subgroups) {sortlayer $win $group}
    #### build the tree at the given path
    proc ::tktree::buildtree {win} {
        variable cfg
        $win delete all
        sortlayer $win
        set xpos 5
        set cfg($win,y) 5
        #Draw global expand/contract button, if needed
        if {[string length $cfg($win,/:subgroups)] && $cfg($win,expandall)} {
            set exp 0
            foreach subgroup $cfg($win,/:subgroups) {incr exp $cfg($win,$subgroup:open)}
            if {$exp} {set type collapse} {set type expand}
            set ocimg [$win create image 1 1 -image [eval list \$::tktree::img$type] -anchor w]
            $win bind $ocimg <1> [list ::tktree::switchlayer $win [expr ! $exp]]
        #Build the layers and set initial selection
        buildlayer $win / $xpos
        $win config -scrollregion [$win bbox all]
        setselection $win $cfg($win,selection)

    #### internal use - set up a handle to build the tree when everything is idle
    proc ::tktree::buildwhenidle {win} {
        catch {after cancel $::tktree::cfg($win,buildHandle)}
        set ::tktree::cfg($win,buildHandle) [after idle [list ::tktree::buildtree $win]]

    #### will create a new tree widget at the given path
    proc ::tktree::treecreate {win args} {
        variable cfg
        #Default configuration for new tree
        set cfg($win,selection) {}
        set cfg($win,selidx) {}
        set cfg($win,/:subgroups) {}
        set cfg($win,/:children) {}
        set cfg($win,/:open) 1
        set cfg($win,images) 1
        set cfg($win,expandall) 1
        set cfg($win,linecolor)  black
        set cfg($win,textcolor)  black
        set cfg($win,font) {-family Helvetica -size 10}
        #Parse and setup custom configuration options
        set canvascfg ""
        foreach {item val} $args {
            switch -- $item {
                -linecolor            {set cfg($win,linecolor) $val}
                -textcolor            {set cfg($win,textcolor) $val}
                -font                 {set cfg($win,font) $val}
                -images               {set cfg($win,images) $val}
                -expandall            {set cfg($win,expandall) $val}
                default               {lappend canvascfg $item $val}
        #Build the canvas
        eval {canvas $win -takefocus 1} $canvascfg
        bind $win <Destroy> [list ::tktree::delitem $win /]
        bind $win <1>  [list focus $win]
        bind $win <Return> {eval $::tktree::cfg(%W,[::tktree::getselection %W]:command)}
        bind $win <space> {eval $::tktree::cfg(%W,[::tktree::getselection %W]:command)}
        bind $win <Up>    [list ::tktree::updown $win 0]
        bind $win <Down>    [list ::tktree::updown $win 1]
        bind $win <Left>    [list ::tktree::leftright $win 0]
        bind $win <Right>    [list ::tktree::leftright $win 1]
        #Build the tree when idle
        buildwhenidle $win

The following documentation should cover everything:
##    a quick note about arguements:
##     pathname = the qualified tk window pathname for the canvas widget
##     itempath = the full path for a tree item
##        the tree separtes groupings with a "/" therefore pathnames are as follows
##        /item1 is a child on the root of the tree
##        /goup1/ is a subgroup on the root level of the tree
##        /group1/group2/item1  is a child in the subgroup group2 of the subgroup group1
##  ::tktree::treecreate pathname [options]
##    will create a new tree widget with the given window pathname
##      optional arguments:
##        -linecolor            = The color of the branching lines (black)
##        -textcolor            = text color (black)
##        -font                 = the font for the text (Helvetica size 10)
##        -images               = set to 0 to disable images, defaults to 1
##        -expandall            = set to 0 to turn off the expand/collapse all button at the top
##    **All other arguements are passed to the canvas
##  ::tktree::newitem pathname itempath [options]
##    will create the new item given by itempath, and rebuild the widget
##        if an itempath is given with a group that does not exist, the group will be created
##      optional arguments:
##        -textcolor = the color for the text (defaults to the default tree color, see treecreate)
##        -command   = the command to be executed on a double-1 for the item
##                     if it is a group, the default command will open/close the group
##        -image     = the path of an image to be drawn as an icon for the item
##                        by default an image is drawn (folder or file)
##                        set the option to null for no image
##        -font      = font for the particular item (defaults to the default tree font, see treecreate)
##  ::tktree::delitem pathname itempath
##    will delete the item given and rebuild the widget
##    if the item is a group, all subgroups and children will also be deleted
##    if the item is root (/), then all elements of the tree will be deleted
##  ::tktree::labelat pathname xpos ypos
##    returns the name of the item at xpos and ypos coordinates
##  ::tktree::getselection pathname
##    returns the current sselection
##  ::tktree::setselection pathname itempath
##    set the current selection to the item given
##  canvas <destroy>            delitem will be called for the root path
##  item <button-1>             will change the selection to the item under the cursor
##  plus/minus box <button-1>   on a group will change the state of that group (opened or closed)
##                              the plus/minus at the top of the widget will expand/collapse recursively
##  <double-1><Return><space>   all will launch the command specified for that item (groups switchstate by default)
##  <Up><Down><Left><Right>     navigation of the tree widget

This test code will build the default widget you see at the top:
::tktree::treecreate .tree
pack .tree -expand 1 -fill both
focus .tree
foreach item {/group1/item1 /group1/item2 /group1/subgroup/item1 /group2/item1 /item1} {
    ::tktree::newitem .tree $item -command [list tk_messageBox -message "$item executed"]

And this will build the configured widget:
::tktree::treecreate .tree -bg black -font {-family Times -size 14} -textcolor red -bd 4 -relief ridge \
    -selectbackground darkBlue -selectforeground yellow -selectborderwidth 3 -linecolor yellow \
    -xscrollcommand [list .xscroll set] -yscrollcommand [list .yscroll set]
scrollbar .yscroll -orient vertical -command [list .tree yview] -width 10
scrollbar .xscroll -orient horizontal -command [list .tree xview] -width 10
pack .yscroll -side right -fill y
pack .xscroll -side bottom -fill x
pack .tree -expand 1 -fill both
focus .tree
foreach item {/group1/item1 /group1/item2 /group1/subgroup/item1 /group2/item1 /item1} {
  ::tktree::newitem .tree $item -command [list tk_messageBox -message "$item executed"] \
      -textcolor green -font {-family Times -size 10} -image {}

For some slight variations on the tree metaphor, see What's wrong with the tree widgets?

You will see better performance if you put braces around your expressions.
# original:
set imgwidth [expr  ([image width $cfg($win,$child:image)] + 2) / 2]
# improved:
set imgwidth [expr  {([image width $cfg($win,$child:image)] + 2) / 2}]