# This file is a Tcl script to test out the procedures in tkRectOval.c, # which implement canvas "rectangle" and "oval" items. It is organized # in the standard fashion for Tcl tests. # # Copyright © 1994-1996 Sun Microsystems, Inc. # Copyright © 1998-1999 Scriptics Corporation. # All rights reserved. package require tcltest 2.2 namespace import ::tcltest::* eval tcltest::configure $argv tcltest::loadTestedCommands # Canvas used in every test case of the whole file canvas .c -width 400 -height 300 -bd 2 -relief sunken pack .c update # Rectangle used in canvRect-1.* tests .c create rectangle 20 20 80 80 -tag test test canvRect-1.1 {configuration options: good value for -fill} -body { .c itemconfigure test -fill #ff0000 list [.c itemcget test -fill] [lindex [.c itemconfigure test -fill] 4] } -result {{#ff0000} #ff0000} test canvRect-1.2 {configuration options: bad value for -fill} -body { .c itemconfigure test -fill non-existent } -returnCodes error -result {unknown color name "non-existent"} test canvRect-1.3 {configuration options: good value for -outline} -body { .c itemconfigure test -outline #123456 list [.c itemcget test -outline] [lindex [.c itemconfigure test -outline] 4] } -result {{#123456} #123456} test canvRect-1.4 {configuration options: bad value for -outline} -body { .c itemconfigure test -outline non-existent } -returnCodes error -result {unknown color name "non-existent"} test canvRect-1.5 {configuration options: good value for -stipple } -body { .c itemconfigure test -stipple gray50 list [.c itemcget test -stipple ] [lindex [.c itemconfigure test -stipple ] 4] } -result {gray50 gray50} test canvRect-1.6 {configuration options: bad value for -stipple } -body { .c itemconfigure test -stipple bogus } -returnCodes error -result {bitmap "bogus" not defined} test canvRect-1.7 {configuration options: good value for -tags} -body { .c itemconfigure test -tags {test a b c} list [.c itemcget test -tags] [lindex [.c itemconfigure test -tags] 4] } -result {{test a b c} {test a b c}} test canvRect-1.8 {configuration options} -body { .c itemconfigure test -tags {test xyz} .c itemcget xyz -tags } -result {test xyz} test canvRect-1.9 {configuration options: good value for -width} -body { .c itemconfigure test -width 6.0 list [.c itemcget test -width] [lindex [.c itemconfigure test -width] 4] } -result {6.0 6.0} test canvRect-1.10 {configuration options: bad value for -width} -body { .c itemconfigure test -width abc } -returnCodes error -result {bad screen distance "abc"} .c delete withtag all test canvRect-2.1 {CreateRectOval procedure} -body { .c create rect } -returnCodes error -result {wrong # args: should be ".c create rect coords ?arg ...?"} test canvRect-2.2 {CreateRectOval procedure} -body { .c create oval x y z } -returnCodes error -result {wrong # coordinates: expected 0 or 4, got 3} test canvRect-2.3 {CreateRectOval procedure} -body { .c create rectangle x 2 3 4 } -returnCodes error -result {bad screen distance "x"} test canvRect-2.4 {CreateRectOval procedure} -body { .c create rectangle 1 y 3 4 } -returnCodes error -result {bad screen distance "y"} test canvRect-2.5 {CreateRectOval procedure} -body { .c create rectangle 1 2 z 4 } -returnCodes error -result {bad screen distance "z"} test canvRect-2.6 {CreateRectOval procedure} -body { .c create rectangle 1 2 3 q } -returnCodes error -result {bad screen distance "q"} test canvRect-2.7 {CreateRectOval procedure} -body { .c create rectangle 1 2 3 4 -tags x set result {} foreach element [.c coords x] { lappend result [format %.1f $element] } set result } -result {1.0 2.0 3.0 4.0} test canvRect-2.8 {CreateRectOval procedure} -body { .c create rectangle 1 2 3 4 -gorp foo } -returnCodes error -result {unknown option "-gorp"} .c delete withtag all test canvRect-3.1 {RectOvalCoords procedure} -body { .c create rectangle 10 20 30 40 -tags x set result {} foreach element [.c coords x] { lappend result [format %.1f $element] } return $result } -cleanup { .c delete withtag all } -result {10.0 20.0 30.0 40.0} test canvRect-3.2 {RectOvalCoords procedure} -body { .c create rectangle 10 20 30 40 -tags x .c coords x a 2 3 4 } -cleanup { .c delete withtag all } -returnCodes error -result {bad screen distance "a"} test canvRect-3.3 {RectOvalCoords procedure} -body { .c create rectangle 10 20 30 40 -tags x .c coords x 1 b 3 4 } -cleanup { .c delete withtag all } -returnCodes error -result {bad screen distance "b"} test canvRect-3.4 {RectOvalCoords procedure} -body { .c create rectangle 10 20 30 40 -tags x .c coords x 1 2 c 4 } -cleanup { .c delete withtag all } -returnCodes error -result {bad screen distance "c"} test canvRect-3.5 {RectOvalCoords procedure} -body { .c create rectangle 10 20 30 40 -tags x .c coords x 1 2 3 d } -cleanup { .c delete withtag all } -returnCodes error -result {bad screen distance "d"} test canvRect-3.6 {RectOvalCoords procedure} -body { .c create rectangle 10 20 30 40 -tags x .c coords x 10 25 15 40 .c bbox x } -cleanup { .c delete withtag all } -result {9 24 16 41} test canvRect-3.7 {RectOvalCoords procedure} -body { .c create rectangle 10 20 30 40 -tags x .c coords x 1 2 3 4 5 } -cleanup { .c delete withtag all } -returnCodes error -result {wrong # coordinates: expected 0 or 4, got 5} test canvRect-4.1 {ConfigureRectOval procedure} -body { .c create rectangle 10 20 30 40 -tags x -width 1 .c itemconfigure x -width abc } -cleanup { .c delete withtag all } -returnCodes error -result {bad screen distance "abc"} test canvRect-4.2 {ConfigureRectOval procedure} -body { .c create rectangle 10 20 30 40 -tags x -width 1 catch {.c itemconfigure x -width abc} .c itemcget x -width } -cleanup { .c delete withtag all } -result {1.0} test canvRect-4.3 {ConfigureRectOval procedure} -body { .c create rectangle 10 20 30 40 -tags x -width 1 .c itemconfigure x -width -5 } -cleanup { .c delete withtag all } -returnCodes error -result {bad screen distance "-5"} test canvRect-4.4 {ConfigureRectOval procedure} -body { .c create rectangle 10 20 30 40 -tags x -width 1 .c itemconfigure x -width 10 .c bbox x } -cleanup { .c delete withtag all } -result {5 15 35 45} # I can't come up with any good tests for DeleteRectOval. # On Windows the bbox of rectangle items is 1 pixel larger at each border due # to the "bloat" implemented in ComputeRectOvalBbox() in case -outline is {} if {[tk windowingsystem] eq "win32"} { set result_5_1 {9 4 21 16} } else { set result_5_1 {10 5 20 15} } test canvRect-5.1 {ComputeRectOvalBbox procedure} -body { .c create rectangle 10 20 30 40 -tags x -width 1 -outline {} .c coords x 20 15 10 5 .c bbox x } -cleanup { .c delete withtag all } -result $result_5_1 test canvRect-5.2 {ComputeRectOvalBbox procedure} -body { .c create rectangle 10 20 30 40 -tags x -width 1 -outline {} .c coords x 10 20 30 10 .c itemconfigure x -width 1 -outline red .c bbox x } -cleanup { .c delete withtag all } -result {9 9 31 21} test canvRect-5.3 {ComputeRectOvalBbox procedure} -body { .c create rectangle 10 20 30 40 -tags x -width 1 -outline {} .c coords x 10 20 30 10 .c itemconfigure x -width 2 -outline red .c bbox x } -cleanup { .c delete withtag all } -result {9 9 31 21} test canvRect-5.4 {ComputeRectOvalBbox procedure} -body { .c create rectangle 10 20 30 40 -tags x -width 1 -outline {} .c coords x 10 20 30 10 .c itemconfigure x -width 3 -outline red .c bbox x } -cleanup { .c delete withtag all } -result {8 8 32 22} # I can't come up with any good tests for DisplayRectOval. test canvRect-6.1 {RectToPoint procedure} -body { set xId [.c create rectangle 10 20 30 35 -tags x -fill green] set yId [.c create rectangle 15 25 25 30 -tags y -fill red] .c itemconfigure y -outline {} list [expr {[.c find closest 14.9 28] eq $xId}] \ [expr {[.c find closest 15.1 28] eq $yId}] \ [expr {[.c find closest 24.9 28] eq $yId}] \ [expr {[.c find closest 25.1 28] eq $xId}] } -cleanup { .c delete all } -result {1 1 1 1} test canvRect-6.2 {RectToPoint procedure} -body { set xId [.c create rectangle 10 20 30 35 -tags x -fill green] set yId [.c create rectangle 15 25 25 30 -tags y -fill red] .c itemconfigure y -outline {} list [expr {[.c find closest 20 24.9] eq $xId}] \ [expr {[.c find closest 20 25.1] eq $yId}] \ [expr {[.c find closest 20 29.9] eq $yId}] \ [expr {[.c find closest 20 30.1] eq $xId}] } -cleanup { .c delete all } -result {1 1 1 1} test canvRect-6.3 {RectToPoint procedure} -body { set xId [.c create rectangle 10 20 30 35 -tags x -fill green] set yId [.c create rectangle 15 25 25 30 -tags y -fill red] .c itemconfigure y -width 1 -outline black list [expr {[.c find closest 14.4 28] eq $xId}] \ [expr {[.c find closest 14.6 28] eq $yId}] \ [expr {[.c find closest 25.4 28] eq $yId}] \ [expr {[.c find closest 25.6 28] eq $xId}] } -cleanup { .c delete all } -result {1 1 1 1} test canvRect-6.4 {RectToPoint procedure} -body { set xId [.c create rectangle 10 20 30 35 -tags x -fill green] set yId [.c create rectangle 15 25 25 30 -tags y -fill red] .c itemconfigure y -width 1 -outline black list [expr {[.c find closest 20 24.4] eq $xId}] \ [expr {[.c find closest 20 24.6] eq $yId}] \ [expr {[.c find closest 20 30.4] eq $yId}] \ [expr {[.c find closest 20 30.6] eq $xId}] } -cleanup { .c delete all } -result {1 1 1 1} test canvRect-6.5 {RectToPoint procedure} -body { set xId [.c create rectangle 10 20 30 35 -tags x -fill green] set yId [.c create rectangle 15 25 25 30 -tags y -fill red] .c itemconfigure x -fill {} -outline black -width 3 .c itemconfigure y -outline {} list [expr {[.c find closest 13.2 28] eq $xId}] \ [expr {[.c find closest 13.3 28] eq $yId}] \ [expr {[.c find closest 26.7 28] eq $yId}] \ [expr {[.c find closest 26.8 28] eq $xId}] } -cleanup { .c delete all } -result {1 1 1 1} test canvRect-6.6 {RectToPoint procedure} -body { set xId [.c create rectangle 10 20 30 35 -tags x -fill green] set yId [.c create rectangle 15 25 25 30 -tags y -fill red] .c itemconfigure x -fill {} -outline black -width 3 .c itemconfigure y -outline {} list [expr {[.c find closest 20 23.2] eq $xId}] \ [expr {[.c find closest 20 23.3] eq $yId}] \ [expr {[.c find closest 20 31.7] eq $yId}] \ [expr {[.c find closest 20 31.8] eq $xId}] } -cleanup { .c delete all } -result {1 1 1 1} test canvRect-6.7 {RectToPoint procedure} -body { set xId [.c create rectangle 10 20 30 40 -outline {} -fill black] set yId [.c create rectangle 40 40 50 50 -outline {} -fill black] list [expr {[.c find closest 35 35] eq $xId}] \ [expr {[.c find closest 36 36] eq $yId}] \ [expr {[.c find closest 37 37] eq $yId}] \ [expr {[.c find closest 38 38] eq $yId}] } -cleanup { .c delete all } -result {1 1 1 1} test canvRect-7.1 {RectToArea procedure} -body { set xId [.c create rectangle 10 20 30 35 -fill green -outline {}] set yId [.c create rectangle 40 45 60 70 -fill red -outline black -width 3] set zId [.c create rectangle 100 150 120 170 -fill {} -outline black -width 3] list [expr {[.c find overlapping 20 50 38 60] eq {}}] \ [expr {[.c find overlapping 20 50 39 60] eq $yId}] \ [expr {[.c find overlapping 20 50 70 60] eq $yId}] \ [expr {[.c find overlapping 61 50 70 60] eq $yId}] \ [expr {[.c find overlapping 62 50 70 60] eq {}}] } -cleanup { .c delete all } -result {1 1 1 1 1} test canvRect-7.2 {RectToArea procedure} -body { set xId [.c create rectangle 10 20 30 35 -fill green -outline {}] set yId [.c create rectangle 40 45 60 70 -fill red -outline black -width 3] set zId [.c create rectangle 100 150 120 170 -fill {} -outline black -width 3] list [expr {[.c find overlapping 45 20 55 43] eq {}}] \ [expr {[.c find overlapping 45 20 55 44] eq $yId}] \ [expr {[.c find overlapping 45 20 55 80] eq $yId}] \ [expr {[.c find overlapping 45 71 55 80] eq $yId}] \ [expr {[.c find overlapping 45 72 55 80] eq {}}] } -cleanup { .c delete all } -result {1 1 1 1 1} test canvRect-7.3 {RectToArea procedure} -body { set xId [.c create rectangle 10 20 30 35 -fill green -outline {}] set yId [.c create rectangle 40 45 60 70 -fill red -outline black -width 3] set zId [.c create rectangle 100 150 120 170 -fill {} -outline black -width 3] list [expr {[.c find overlapping 5 25 9.9 30] eq {}}] \ [expr {[.c find overlapping 5 25 10.1 30] eq $xId}] } -cleanup { .c delete all } -result {1 1} test canvRect-7.4 {RectToArea procedure} -body { set xId [.c create rectangle 10 20 30 35 -fill green -outline {}] set yId [.c create rectangle 40 45 60 70 -fill red -outline black -width 3] set zId [.c create rectangle 100 150 120 170 -fill {} -outline black -width 3] list [expr {[.c find overlapping 102 152 118 168] eq {}}]\ [expr {[.c find overlapping 101 152 118 168] eq $zId}] \ [expr {[.c find overlapping 102 151 118 168] eq $zId}] \ [expr {[.c find overlapping 102 152 119 168] eq $zId}] \ [expr {[.c find overlapping 102 152 118 169] eq $zId}] } -cleanup { .c delete all } -result {1 1 1 1 1} test canvRect-7.5 {RectToArea procedure} -body { set xId [.c create rectangle 10 20 30 35 -fill green -outline {}] set yId [.c create rectangle 40 45 60 70 -fill red -outline black -width 3] set zId [.c create rectangle 100 150 120 170 -fill {} -outline black -width 3] list [expr {[.c find enclosed 20 40 38 80] eq {}}] \ [expr {[.c find enclosed 20 40 39 80] eq {}}] \ [expr {[.c find enclosed 20 40 70 80] eq $yId}] \ [expr {[.c find enclosed 61 40 70 80] eq {}}] \ [expr {[.c find enclosed 62 40 70 80] eq {}}] } -cleanup { .c delete all } -result {1 1 1 1 1} test canvRect-7.6 {RectToArea procedure} -body { set xId [.c create rectangle 10 20 30 35 -fill green -outline {}] set yId [.c create rectangle 40 45 60 70 -fill red -outline black -width 3] set zId [.c create rectangle 100 150 120 170 -fill {} -outline black -width 3] list [expr {[.c find enclosed 20 20 65 43] eq {}}] \ [expr {[.c find enclosed 20 20 65 44] eq {}}] \ [expr {[.c find enclosed 20 20 65 80] eq $yId}] \ [expr {[.c find enclosed 20 71 65 80] eq {}}] \ [expr {[.c find enclosed 20 72 65 80] eq {}}] } -cleanup { .c delete all } -result {1 1 1 1 1} test canvRect-8.1 {OvalToArea procedure} -body { set xId [.c create oval 50 100 200 150 -fill green -outline {}] set yId [.c create oval 50 100 200 150 -fill red -outline black -width 3] set zId [.c create oval 50 100 200 150 -fill {} -outline black -width 3] list [expr {[.c find overlapping 20 120 48 130] eq {}}] \ [expr {[.c find overlapping 20 120 49 130] eq "$yId $zId"}] \ [expr {[.c find overlapping 20 120 50.2 130] eq "$xId $yId $zId"}] \ [expr {[.c find overlapping 20 120 300 130] eq "$xId $yId $zId"}] \ [expr {[.c find overlapping 60 120 190 130] eq "$xId $yId"}] \ [expr {[.c find overlapping 199.9 120 300 130] eq "$xId $yId $zId"}] \ [expr {[.c find overlapping 201 120 300 130] eq "$yId $zId"}] \ [expr {[.c find overlapping 202 120 300 130] eq {}}] } -cleanup { .c delete all } -result {1 1 1 1 1 1 1 1} test canvRect-8.2 {OvalToArea procedure} -body { set xId [.c create oval 50 100 200 150 -fill green -outline {}] set yId [.c create oval 50 100 200 150 -fill red -outline black -width 3] set zId [.c create oval 50 100 200 150 -fill {} -outline black -width 3] list [expr {[.c find overlapping 100 50 150 98] eq {}}] \ [expr {[.c find overlapping 100 50 150 99] eq "$yId $zId"}] \ [expr {[.c find overlapping 100 50 150 100.1] eq "$xId $yId $zId"}] \ [expr {[.c find overlapping 100 50 150 200] eq "$xId $yId $zId"}] \ [expr {[.c find overlapping 100 110 150 140] eq "$xId $yId"}] \ [expr {[.c find overlapping 100 149.9 150 200] eq "$xId $yId $zId"}] \ [expr {[.c find overlapping 100 151 150 200] eq "$yId $zId"}] \ [expr {[.c find overlapping 100 152 150 200] eq {}}] } -cleanup { .c delete all } -result {1 1 1 1 1 1 1 1} test canvRect-8.3 {OvalToArea procedure} -body { set xId [.c create oval 50 100 200 150 -fill green -outline {}] set yId [.c create oval 50 100 200 150 -fill red -outline black -width 3] set zId [.c create oval 50 100 200 150 -fill {} -outline black -width 3] list [expr {[.c find overlapping 176 104 177 105] eq {}}] \ [expr {[.c find overlapping 187 116 188 117] eq "$xId $yId"}] \ [expr {[.c find overlapping 192 142 193 143] eq {}}] \ [expr {[.c find overlapping 180 138 181 139] eq "$xId $yId"}] \ [expr {[.c find overlapping 61 142 62 143] eq {}}] \ [expr {[.c find overlapping 65 137 66 136] eq "$xId $yId"}] \ [expr {[.c find overlapping 62 108 63 109] eq {}}] \ [expr {[.c find overlapping 68 115 69 116] eq "$xId $yId"}] } -cleanup { .c delete all } -result {1 1 1 1 1 1 1 1} test canvRect-9.1 {ScaleRectOval procedure} -setup { .c delete withtag all } -body { .c create rect 100 300 200 350 -tags x .c scale x 50 100 2 4 format {%.6g %.6g %.6g %.6g} {*}[.c coords x] } -result {150 900 350 1100} test canvRect-10.1 {TranslateRectOval procedure} -setup { .c delete withtag all } -body { .c create rect 100 300 200 350 -tags x .c move x 100 -10 format {%.6g %.6g %.6g %.6g} {*}[.c coords x] } -result {200 290 300 340} test canvRect-11.1 {RectOvalToPostscript procedure} -constraints { nonPortable } -setup { .c delete withtag all } -body { # This test is non-portable because different color information # will get generated on different displays (e.g. mono displays # vs. color). .c configure -bd 0 -highlightthickness 0 .c create rect 50 60 90 80 -fill black -stipple gray50 -outline {} .c create oval 100 150 200 200 -fill {} -outline #ff0000 -width 5 update set x [.c postscript] string range $x [string first "-200 -150 translate" $x] end } -result {-200 -150 translate 0 300 moveto 400 300 lineto 400 0 lineto 0 0 lineto closepath clip newpath gsave 50 240 moveto 40 0 rlineto 0 -20 rlineto -40 0 rlineto closepath 0.000 0.000 0.000 setrgbcolor AdjustColor clip 16 16 <5555aaaa5555aaaa5555aaaa5555aaaa5555aaaa5555aaaa5555aaaa5555 aaaa> StippleFill grestore gsave matrix currentmatrix 150 125 translate 50 25 scale 1 0 moveto 0 0 1 0 360 arc setmatrix 5 setlinewidth 0 setlinejoin 2 setlinecap 1.000 0.000 0.000 setrgbcolor AdjustColor stroke grestore restore showpage %%Trailer end %%EOF } # cleanup cleanupTests return