The proc
proc gradient {image relief light source} { set sunken [string match sun* $relief] set light [expr {$light * 96 + 32}] set source [expr {0.5 + $source / 2.0}] set D [image width $image] set R [expr {$D / 2}] set R2 [expr {$R * $R}] for {set y 0} {$y < $D} {incr y} { set Dy2 [expr {($y - $R) * ($y - $R)}] set dy [expr {($y * $source - $R)}] set dy2 [expr {$dy * $dy}] for {set x 0} {$x < $D} {incr x} { set Dx2 [expr {($x - $R) * ($x - $R)}] set Dxy [expr {$Dx2 + $Dy2}] if {$Dxy <= $R2} { set dx [expr {($x * $source - $R)}] set dx2 [expr {$dx * $dx}] set dxy [expr {$dx2 + $dy2}] set color [expr {int(127 + $light * (1.0 - ($dxy / $R2 / 1.5)))}] if {$sunken} { set color [expr {int(127 + $light * 2 - $color)}] } set color [format "#%02x%02x%02x" $color $color $color] $image put $color -to [expr {$D - $x}] [expr {$D - $y}] } } } }
The demo
proc demo {args} { # args set size 128 set light 1.0 set source 0.0 foreach {key value} $args { switch -glob -- $key { -li* { if {$value < 0.0 ||$value > 1.0} { error "light should be between 0.0 and 1.0" } set light $value } -si* { set size $value } -so* { if {$value < 0.0 ||$value > 1.0} { error "source should be between 0.0 and 1.0" } set source $value } default { error "unknown option \"$key\"" } } } # title wm title . "spheres" # canvas set ww $size; incr ww $size; incr ww set hh $size; incr hh canvas .c -width $ww -height $hh -relief groove -bd 1 grid .c -padx 50 -pady 10 # raised image image create photo raised -width $size -height $size set x 3; set y 3 .c create image $x $y -image raised -anchor nw gradient raised raised $light $source # sunken image incr x $size image create photo sunken -width $size -height $size .c create image $x $y -image sunken -anchor nw gradient sunken sunken $light $source # button button .b -text Quit -width 6 -command exit -bd 1 grid .b -pady 10 bind .b <Return> { %W invoke } bind . <Escape> { exit } } package require Tk 8.4 demo -size 96 -light 0.9 -source 0.1___uniquename 2014jan27For those who do not have the facilities or time to implement the code above, here is an image of the window that is produced by the 'spheres' Tk script of 'ulis'.(This locally-stored image serves to replace a dead link, above, to an external-image-link.)
Modified to use a dot-product for a simple (but accurate) lighting model
package require Tk proc draw_sphere {image } { set D [image width $image] set R [expr {$D / 2}] set invR [expr {1.0/$R}] set R2 [expr {$R * $R}] # direction to light source (normal vector) set lightX 0.4472 set lightY 0.5366 set lightZ 0.7155 # iterate top to bottom for {set sy 0} {$sy < $D} {incr sy} { set y [expr {($sy - $R)}] set xmax [expr {$R2-$y*$y}] if { $xmax < 0 } {continue} set xmax [expr {int(sqrt($xmax))}] set xmin [expr {$R-$xmax}] set xmax [expr {$R+$xmax}] set vY [expr {$y * $invR}] # iterate left to right, but only within the circle for {set sx $xmin} {$sx <= $xmax} {incr sx} { set vX [expr {($sx-$R) * $invR}] set vZ [expr {1.0 - $vY*$vY - $vX*$vX}] if { $vZ < 0 } { set vZ 0 } set vZ [expr {sqrt($vZ)}] # dot product of light vector with surface normal vector set color [expr {$lightX*$vX+$lightY*$vY+$lightZ*$vZ}] if { $color < 0.0 } { set color 0.0 } if { $color > 1 } { set color 1 } set red [expr {int(255 * $color)}] set color [format "#%02x%02x%02x" $red $red $red ] $image put $color -to [expr {$D - $sx}] [expr {$D - $sy}] } } } proc demo2 {} { wm title . "sphere" set size 97 set ww [expr 2*$size] set hh [expr 2*$size] canvas .c -width $ww -height $hh -bg #6060ff grid .c -padx 50 -pady 10 .c create rectangle 0 [expr $hh/3] $ww $hh -fill #00aa00 -outline {} # raised image image create photo sphere_img -width $size -height $size set x [expr $ww/2] set y [expr $hh*2.0/3] .c create image $x $y -image sphere_img -anchor c draw_sphere sphere_img } demo2___uniquename 2014jan27For those who do not have the facilities or time to implement the code above, here is an image of the window produced by the 'sphere' Tk script of 'ulis'.