# arrow.tcl -- # # This demonstration script creates a canvas widget that displays a # large line with an arrowhead whose shape can be edited interactively. if {![info exists widgetDemo]} { error "This script should be run from the \"widget\" demo." } package require tk # scl -- # Scales an integer according to the display's current scaling percentage. # # Arguments: # num - An integer. proc scl num { return [expr {round($num*$tk::scalingPct/100.0)}] } # arrowSetup -- # This procedure regenerates all the text and graphics in the canvas # window. It's called when the canvas is initially created, and also # whenever any of the parameters of the arrow head are changed # interactively. # # Arguments: # c - Name of the canvas widget. proc arrowSetup c { upvar #0 demo_arrowInfo v # Remember the current box, if there is one. set tags [$c gettags current] if {$tags != ""} { set cur [lindex $tags [lsearch -glob $tags box?]] } else { set cur "" } # Create the arrow and outline. $c delete all $c create line $v(x1) $v(y) $v(x2) $v(y) -arrow last \ -width [expr {10*$v(width)}] -arrowshape [list \ [expr {10*$v(a)}] [expr {10*$v(b)}] [expr {10*$v(c)}]] \ {*}$v(bigLineStyle) set xtip [expr {$v(x2)-10*$v(b)}] set deltaY [expr {10*$v(c)+5*$v(width)}] $c create line $v(x2) $v(y) $xtip [expr {$v(y)+$deltaY}] \ [expr {$v(x2)-10*$v(a)}] $v(y) $xtip [expr {$v(y)-$deltaY}] \ $v(x2) $v(y) -width 1.5p -capstyle round -joinstyle round # Create the boxes for reshaping the line and arrowhead. set _5 [scl 5] $c create rect [expr {$v(x2)-10*$v(a)-$_5}] [expr {$v(y)-$_5}] \ [expr {$v(x2)-10*$v(a)+$_5}] [expr {$v(y)+$_5}] \ -tags {box1 box} {*}$v(boxStyle) $c create rect [expr {$xtip-$_5}] [expr {$v(y)-$deltaY-$_5}] \ [expr {$xtip+$_5}] [expr {$v(y)-$deltaY+$_5}] \ -tags {box2 box} {*}$v(boxStyle) $c create rect [expr {$v(x1)-$_5}] [expr {$v(y)-5*$v(width)-$_5}] \ [expr {$v(x1)+$_5}] [expr {$v(y)-5*$v(width)+$_5}] \ -tags {box3 box} {*}$v(boxStyle) if {$cur != ""} { $c itemconfigure $cur {*}$v(activeStyle) } # Create three arrows in actual size with the same parameters. set _10 [scl 10] set _15 [scl 15] set _25 [scl 25] set _50 [scl 50] set _75 [scl 75] set _125 [scl 125] $c create line [expr {$v(x2)+$_50}] 0 [expr {$v(x2)+$_50}] 750p -width 1.5p set tmp [expr {$v(x2)+[scl 100]}] $c create line $tmp [expr {$v(y)-$_125}] $tmp [expr {$v(y)-$_75}] \ -width $v(width) -arrow both -arrowshape "$v(a) $v(b) $v(c)" $c create line [expr {$tmp-$_25}] $v(y) [expr {$tmp+$_25}] $v(y) \ -width $v(width) -arrow both -arrowshape "$v(a) $v(b) $v(c)" $c create line [expr {$tmp-$_25}] [expr {$v(y)+$_75}] \ [expr {$tmp+$_25}] [expr {$v(y)+$_125}] \ -width $v(width) -arrow both -arrowshape "$v(a) $v(b) $v(c)" # Create a bunch of other arrows and text items showing the # current dimensions. set tmp [expr {$v(x2)+$_10}] $c create line $tmp [expr {$v(y)-5*$v(width)}] \ $tmp [expr {$v(y)-$deltaY}] \ -arrow both -arrowshape $v(smallTips) $c create text [expr {$v(x2)+$_15}] [expr {$v(y)-$deltaY+5*$v(c)}] \ -text $v(c) -anchor w set tmp [expr {$v(x1)-$_10}] $c create line $tmp [expr {$v(y)-5*$v(width)}] \ $tmp [expr {$v(y)+5*$v(width)}] \ -arrow both -arrowshape $v(smallTips) $c create text [expr {$v(x1)-$_15}] $v(y) -text $v(width) -anchor e set tmp [expr {$v(y)+5*$v(width)+10*$v(c)+$_10}] $c create line [expr {$v(x2)-10*$v(a)}] $tmp $v(x2) $tmp \ -arrow both -arrowshape $v(smallTips) $c create text [expr {$v(x2)-5*$v(a)}] [expr {$tmp+$_5}] \ -text $v(a) -anchor n set tmp [expr {$tmp+$_25}] $c create line [expr {$v(x2)-10*$v(b)}] $tmp $v(x2) $tmp \ -arrow both -arrowshape $v(smallTips) $c create text [expr {$v(x2)-5*$v(b)}] [expr {$tmp+$_5}] \ -text $v(b) -anchor n $c create text $v(x1) 232.5p -text "-width $v(width)" \ -anchor w -font {Helvetica 18} $c create text $v(x1) 247.5p -text "-arrowshape {$v(a) $v(b) $v(c)}" \ -anchor w -font {Helvetica 18} incr v(count) } set w .arrow catch {destroy $w} toplevel $w wm title $w "Arrowhead Editor Demonstration" wm iconname $w "arrow" positionWindow $w set c $w.c label $w.msg -font $font -wraplength 5i -justify left -text "This widget allows you to experiment with different widths and arrowhead shapes for lines in canvases. To change the line width or the shape of the arrowhead, drag any of the three boxes attached to the oversized arrow. The arrows on the right give examples at normal scale. The text at the bottom shows the configuration options as you'd enter them for a canvas line item." pack $w.msg -side top ## See Code / Dismiss buttons set btns [addSeeDismiss $w.buttons $w] pack $btns -side bottom -fill x canvas $c -width 375p -height 262.5p -relief sunken -borderwidth 2 pack $c -expand yes -fill both set demo_arrowInfo(a) [scl 8] set demo_arrowInfo(b) [scl 10] set demo_arrowInfo(c) [scl 3] set demo_arrowInfo(width) [scl 2] set demo_arrowInfo(motionProc) arrowMoveNull set demo_arrowInfo(x1) [scl 40] set demo_arrowInfo(x2) [scl 350] set demo_arrowInfo(y) [scl 150] set demo_arrowInfo(smallTips) {3.75p 3.75p 1.5p} set demo_arrowInfo(count) 0 if {[winfo depth $c] > 1} { if {[tk windowingsystem] eq "aqua"} { set demo_arrowInfo(bigLineStyle) "-fill systemSelectedTextBackgroundColor" } else { set demo_arrowInfo(bigLineStyle) "-fill LightSeaGreen" } set demo_arrowInfo(boxStyle) "-fill {} -width 0.75p" set demo_arrowInfo(activeStyle) "-fill red -width 0.75p" } else { # Main widget program sets variable tk_demoDirectory set demo_arrowInfo(bigLineStyle) "-fill black \ -stipple @[file join $tk_demoDirectory images grey.25]" set demo_arrowInfo(boxStyle) "-fill {} -outline black -width 0.75p" set demo_arrowInfo(activeStyle) "-fill black -outline black -width 0.75p" } arrowSetup $c $c bind box "$c itemconfigure current $demo_arrowInfo(activeStyle)" $c bind box "$c itemconfigure current $demo_arrowInfo(boxStyle)" $c bind box " " $c bind box " " $c bind box1 {set demo_arrowInfo(motionProc) arrowMove1} $c bind box2 {set demo_arrowInfo(motionProc) arrowMove2} $c bind box3 {set demo_arrowInfo(motionProc) arrowMove3} $c bind box "\$demo_arrowInfo(motionProc) $c %x %y" bind $c "arrowSetup $c" # arrowMove1 -- # This procedure is called for each mouse motion event on box1 (the # one at the vertex of the arrow). It updates the controlling parameters # for the line and arrowhead. # # Arguments: # c - The name of the canvas window. # x, y - The coordinates of the mouse. proc arrowMove1 {c x y} { upvar #0 demo_arrowInfo v set newA [expr {($v(x2)+[scl 5]-round([$c canvasx $x]))/10}] if {$newA < 0} { set newA 0 } set _25 [scl 25] if {$newA > $_25} { set newA $_25 } if {$newA != $v(a)} { $c move box1 [expr {10*($v(a)-$newA)}] 0 set v(a) $newA } } # arrowMove2 -- # This procedure is called for each mouse motion event on box2 (the # one at the trailing tip of the arrowhead). It updates the controlling # parameters for the line and arrowhead. # # Arguments: # c - The name of the canvas window. # x, y - The coordinates of the mouse. proc arrowMove2 {c x y} { upvar #0 demo_arrowInfo v set _5 [scl 5] set newB [expr {($v(x2)+$_5-round([$c canvasx $x]))/10}] if {$newB < 0} { set newB 0 } set _25 [scl 25] if {$newB > $_25} { set newB $_25 } set newC [expr {($v(y)+$_5-round([$c canvasy $y])-5*$v(width))/10}] if {$newC < 0} { set newC 0 } set _20 [scl 20] if {$newC > $_20} { set newC $_20 } if {($newB != $v(b)) || ($newC != $v(c))} { $c move box2 [expr {10*($v(b)-$newB)}] [expr {10*($v(c)-$newC)}] set v(b) $newB set v(c) $newC } } # arrowMove3 -- # This procedure is called for each mouse motion event on box3 (the # one that controls the thickness of the line). It updates the # controlling parameters for the line and arrowhead. # # Arguments: # c - The name of the canvas window. # x, y - The coordinates of the mouse. proc arrowMove3 {c x y} { upvar #0 demo_arrowInfo v set newWidth [expr {($v(y)+[scl 2]-round([$c canvasy $y]))/5}] if {$newWidth < 0} { set newWidth 0 } set _20 [scl 20] if {$newWidth > $_20} { set newWidth $_20 } if {$newWidth != $v(width)} { $c move box3 0 [expr {5*($v(width)-$newWidth)}] set v(width) $newWidth } }