if {[namespace exists tk::test]} { deleteWindows wm geometry . {} raise . return } package require Tk tk appname tktest wm title . tktest # If the main window isn't already mapped (e.g. because the tests are # being run automatically) , specify a precise size for it so that the # user won't have to position it manually. if {![winfo ismapped .]} { wm geometry . +0+0 update } package require tcltest 2.2 namespace eval tk { namespace eval test { namespace export loadTkCommand proc loadTkCommand {} { set tklib {} foreach pair [info loaded {}] { foreach {lib pfx} $pair break if {$pfx eq "Tk"} { set tklib $lib break } } return [list load $tklib Tk] } namespace eval bg { # Manage a background process. # Replace with child interp or thread? namespace import ::tcltest::interpreter namespace import ::tk::test::loadTkCommand namespace export setup cleanup do proc cleanup {} { variable fd # catch in case the background process has closed $fd catch {puts $fd exit} catch {close $fd} set fd "" } proc setup args { variable fd if {[info exists fd] && [string length $fd]} { cleanup } set fd [open "|[list [interpreter] \ -geometry +0+0 -name tktest] $args" r+] puts $fd "puts foo; flush stdout" flush $fd if {[gets $fd data] < 0} { error "unexpected EOF from \"[interpreter]\"" } if {$data ne "foo"} { error "unexpected output from\ background process: \"$data\"" } puts $fd [loadTkCommand] flush $fd fileevent $fd readable [namespace code Ready] } proc Ready {} { variable fd variable Data variable Done set x [gets $fd] if {[eof $fd]} { fileevent $fd readable {} set Done 1 } elseif {$x eq "**DONE**"} { set Done 1 } else { append Data $x } } proc do {cmd {block 0}} { variable fd variable Data variable Done if {$block} { fileevent $fd readable {} } puts $fd "[list catch $cmd msg]; update; puts \$msg;\ puts **DONE**; flush stdout" flush $fd set Data {} if {$block} { while {![eof $fd]} { set line [gets $fd] if {$line eq "**DONE**"} { break } append Data $line } } else { set Done 0 vwait [namespace which -variable Done] } return $Data } } proc Export {internal as external} { uplevel 1 [list namespace import $internal] uplevel 1 [list rename [namespace tail $internal] $external] uplevel 1 [list namespace export $external] } Export bg::setup as setupbg Export bg::cleanup as cleanupbg Export bg::do as dobg namespace export deleteWindows proc deleteWindows {} { eval destroy [winfo children .] # This update is needed to avoid intermittent failures on macOS in unixEmbed.test # Reason for the failures is unclear but could have to do with window ids being deleted # after the destroy command returns. The detailed mechanism of such delayed deletions # is not understood, but it appears that this update prevents the test failures. update } namespace export fixfocus proc fixfocus {} { catch {destroy .focus} toplevel .focus wm geometry .focus +0+0 entry .focus.e .focus.e insert 0 "fixfocus" pack .focus.e update focus -force .focus.e destroy .focus } namespace export imageInit imageFinish imageCleanup imageNames variable ImageNames proc imageInit {} { variable ImageNames if {![info exists ImageNames]} { set ImageNames [lsort [image names]] } imageCleanup if {[lsort [image names]] ne $ImageNames} { return -code error "IMAGE NAMES mismatch: [image names] != $ImageNames" } } proc imageFinish {} { variable ImageNames if {[lsort [image names]] ne $ImageNames} { return -code error "images remaining: [image names] != $ImageNames" } imageCleanup } proc imageCleanup {} { variable ImageNames foreach img [image names] { if {$img ni $ImageNames} {image delete $img} } } proc imageNames {} { variable ImageNames set r {} foreach img [image names] { if {$img ni $ImageNames} {lappend r $img} } return $r } # # CONTROL TIMING ASPECTS OF POINTER WARPING # # The proc [controlPointerWarpTiming] is intended to ensure that the (mouse) # pointer has actually been moved to its new position after a Tk test issued: # # [event generate $w $event -warp 1 ...] # # It takes care of the following timing details of pointer warping: # # a. Allow pointer warping to happen if it was scheduled for execution at # idle time. # - In Tk releases 8.6 and older, pointer warping is scheduled for # execution at idle time # - In release 8.7 and newer this happens synchronously if $w refers to the # whole screen or if the -when option to [event generate] is "now". # The namespace variable idle_pointer_warping records which of these is # the case. # # b. Work around a race condition associated with OS notification of # mouse motion on Windows. # # When calling [event generate $w $event -warp 1 ...], the following # sequence occurs: # - At some point in the processing of this command, either via a # synchronous execution path, or asynchronously at idle time, Tk calls # an OS function* to carry out the mouse cursor motion. # - Tk has previously registered a callback function** with the OS, for # the OS to call in order to notify Tk when a mouse move is completed. # - Tk doesn't wait for the callback function to receive the notification # from the OS, but continues processing. This suits most use cases # because usually the notification arrives fast enough (within a few tens # of microseconds). However ... # - A problem arises if Tk performs some processing, immediately following # up on [event generate $w $event -warp 1 ...], and that processing # relies on the mouse pointer having actually moved. If such processing # happens just before the notification from the OS has been received, # Tk will be using not yet updated info (e.g. mouse coordinates). # # Hickup, choke etc ... ! # # * the function SendInput() of the Win32 API # ** the callback function is TkWinChildProc() # # This timing issue can be addressed by putting the Tk process on hold # (do nothing at all) for a somewhat extended amount of time, while # letting the OS complete its job in the meantime. This is what is # accomplished by calling [after ms]. # # ---- # For the history of this issue please refer to Tk ticket [69b48f427e], # specifically the comment on 2019-10-27 14:24:26. # # # Beware: there are cases, not (yet) exercised by the Tk test suite, where # [controlPointerWarpTiming] doesn't ensure the new position of the pointer. # For example, when issued under Tk8.7+, if the value for the -when option # to [event generate $w] is not "now", and $w refers to a Tk window, i.e. not # the whole screen. # variable idle_pointer_warping [expr {![package vsatisfies [package provide Tk] 8.7-]}] proc controlPointerWarpTiming {{duration 50}} { variable idle_pointer_warping if {$idle_pointer_warping} { update idletasks ;# see a. above } if {[tk windowingsystem] eq "win32"} { after $duration ;# see b. above } } namespace export controlPointerWarpTiming } } namespace import -force tk::test::* namespace import -force tcltest::testConstraint testConstraint notAqua [expr {[tk windowingsystem] ne "aqua"}] testConstraint aqua [expr {[tk windowingsystem] eq "aqua"}] testConstraint x11 [expr {[tk windowingsystem] eq "x11"}] testConstraint nonwin [expr {[tk windowingsystem] ne "win32"}] testConstraint aquaOrWin32 [expr { ([tk windowingsystem] eq "win32") || [testConstraint aqua] }] testConstraint userInteraction 0 testConstraint nonUnixUserInteraction [expr { [testConstraint userInteraction] || ([testConstraint unix] && [testConstraint notAqua]) }] testConstraint haveDISPLAY [expr {[info exists env(DISPLAY)] && [testConstraint x11]}] testConstraint altDisplay [info exists env(TK_ALT_DISPLAY)] testConstraint noExceed [expr { ![testConstraint unix] || [catch {font actual "\{xyz"}] }] # constraint for running a test on all windowing system except aqua # where the test fails due to a known bug testConstraint aquaKnownBug [expr {[testConstraint notAqua] || [testConstraint knownBug]}] # constraints for testing facilities defined in the tktest executable... testConstraint testImageType [expr {"test" in [image types]}] testConstraint testOldImageType [expr {"oldtest" in [image types]}] testConstraint testbitmap [llength [info commands testbitmap]] testConstraint testborder [llength [info commands testborder]] testConstraint testcbind [llength [info commands testcbind]] testConstraint testclipboard [llength [info commands testclipboard]] testConstraint testcolor [llength [info commands testcolor]] testConstraint testcursor [llength [info commands testcursor]] testConstraint testembed [llength [info commands testembed]] testConstraint testfont [llength [info commands testfont]] testConstraint testmakeexist [llength [info commands testmakeexist]] testConstraint testmenubar [llength [info commands testmenubar]] testConstraint testmetrics [llength [info commands testmetrics]] testConstraint testobjconfig [llength [info commands testobjconfig]] testConstraint testsend [llength [info commands testsend]] testConstraint testtext [llength [info commands testtext]] testConstraint testwinevent [llength [info commands testwinevent]] testConstraint testwrapper [llength [info commands testwrapper]] # constraints about what sort of fonts are available testConstraint fonts 1 destroy .e entry .e -width 0 -font {Helvetica -12} -bd 1 -highlightthickness 1 .e insert end a.bcd if {([winfo reqwidth .e] != 37) || ([winfo reqheight .e] != 20)} { testConstraint fonts 0 } destroy .e destroy .t text .t -width 80 -height 20 -font {Times -14} -bd 1 pack .t .t insert end "This is\na dot." update set x [list [.t bbox 1.3] [.t bbox 2.5]] destroy .t if {![string match {{22 3 6 15} {31 18 [34] 15}} $x]} { testConstraint fonts 0 } # Although unexpected, some systems may have a very limited set of fonts available. # The following constraints happen to evaluate to false at least on one system: the # Github CI runner for Linux with --disable-xft, which has exactly ONE single font # ([font families] returns a single element: "fixed"), for which [font actual] # returns: # -family fixed -size 9 -weight normal -slant roman -underline 0 # and [font metrics] returns: # -ascent 11 -descent 2 -linespace 13 -fixed 1 # The following constraints are hence tailored to check exactly what is needed in the # tests they constrain (that is: availability of any font having the given font # attributes), so that these constrained tests will in fact run on all systems having # reasonable font dotation. testConstraint haveTimes12Font [expr { [font actual {times 12} -size] == 12 }] testConstraint haveCourier37Font [expr { [font actual {-family courier -size 37} -size] == 37 }] testConstraint haveTimes14BoldFont [expr { ([font actual {times 14 bold} -size] == 14) && ([font actual {times 14 bold} -weight] eq "bold") }] testConstraint haveTimes12BoldItalicUnderlineOverstrikeFont [expr { ([font actual {times 12 bold italic overstrike underline} -weight] eq "bold") && ([font actual {times 12 bold italic overstrike underline} -slant] eq "italic") && ([font actual {times 12 bold italic overstrike underline} -underline] eq "1") && ([font actual {times 12 bold italic overstrike underline} -overstrike] eq "1") }] set fixedFont {Courier 12} ; # warning: must be consistent with the files using the constraint below! set bigFont {Helvetica 24} ; # ditto testConstraint haveBigFontTwiceLargerThanTextFont [expr { [font actual $fixedFont -size] * 2 <= [font actual $bigFont -size] }] unset fixedFont bigFont # constraints for the visuals available testConstraint pseudocolor8 [expr { ([catch { toplevel .t -visual {pseudocolor 8} -colormap new }] == 0) && ([winfo depth .t] == 8) }] destroy .t testConstraint haveTruecolor24 [expr { {truecolor 24} in [winfo visualsavailable .] }] testConstraint haveGrayscale8 [expr { {grayscale 8} in [winfo visualsavailable .] }] testConstraint defaultPseudocolor8 [expr { ([winfo visual .] eq "pseudocolor") && ([winfo depth .] == 8) }] # constraint based on whether our display is secure setupbg set app [dobg {tk appname}] testConstraint secureserver 0 if {[llength [info commands send]]} { testConstraint secureserver 1 if {[catch {send $app set a 0} msg] == 1} { if {[string match "X server insecure *" $msg]} { testConstraint secureserver 0 } } } cleanupbg eval tcltest::configure $argv namespace import -force tcltest::test namespace import -force tcltest::makeFile namespace import -force tcltest::removeFile namespace import -force tcltest::makeDirectory namespace import -force tcltest::removeDirectory namespace import -force tcltest::interpreter namespace import -force tcltest::testsDirectory namespace import -force tcltest::cleanupTests deleteWindows wm geometry . {} raise .