#!perl -w
use strict;
use Test::More tests => 165;
use Imager ':handy';
use Imager::Fill;
use Imager::Color::Float;
use Imager::Test qw(is_image is_color4 is_fcolor4 is_color3);
use Config;
-d "testout" or mkdir "testout";
Imager::init_log("testout/t20fill.log", 1);
my $blue = NC(0,0,255);
my $red = NC(255, 0, 0);
my $redf = Imager::Color::Float->new(1, 0, 0);
my $bluef = Imager::Color::Float->new(0, 0, 1);
my $rsolid = Imager::i_new_fill_solid($blue, 0);
ok($rsolid, "building solid fill");
my $raw1 = Imager::ImgRaw::new(100, 100, 3);
# use the normal filled box
Imager::i_box_filled($raw1, 0, 0, 99, 99, $blue);
my $raw2 = Imager::ImgRaw::new(100, 100, 3);
Imager::i_box_cfill($raw2, 0, 0, 99, 99, $rsolid);
ok(1, "drawing with solid fill");
my $diff = Imager::i_img_diff($raw1, $raw2);
ok($diff == 0, "solid fill doesn't match");
Imager::i_box_filled($raw1, 0, 0, 99, 99, $red);
my $rsolid2 = Imager::i_new_fill_solidf($redf, 0);
ok($rsolid2, "creating float solid fill");
Imager::i_box_cfill($raw2, 0, 0, 99, 99, $rsolid2);
$diff = Imager::i_img_diff($raw1, $raw2);
ok($diff == 0, "float solid fill doesn't match");
# ok solid still works, let's try a hatch
# hash1 is a 2x2 checkerboard
my $rhatcha = Imager::i_new_fill_hatch($red, $blue, 0, 1, undef, 0, 0);
my $rhatchb = Imager::i_new_fill_hatch($blue, $red, 0, 1, undef, 2, 0);
ok($rhatcha && $rhatchb, "can't build hatched fill");
# the offset should make these match
Imager::i_box_cfill($raw1, 0, 0, 99, 99, $rhatcha);
Imager::i_box_cfill($raw2, 0, 0, 99, 99, $rhatchb);
ok(1, "filling with hatch");
$diff = Imager::i_img_diff($raw1, $raw2);
ok($diff == 0, "hatch images different");
$rhatchb = Imager::i_new_fill_hatch($blue, $red, 0, 1, undef, 4, 6);
Imager::i_box_cfill($raw2, 0, 0, 99, 99, $rhatchb);
$diff = Imager::i_img_diff($raw1, $raw2);
ok($diff == 0, "hatch images different");
# I guess I was tired when I originally did this - make sure it keeps
# acting the way it's meant to
# I had originally expected these to match with the red and blue swapped
$rhatchb = Imager::i_new_fill_hatch($red, $blue, 0, 1, undef, 2, 2);
Imager::i_box_cfill($raw2, 0, 0, 99, 99, $rhatchb);
$diff = Imager::i_img_diff($raw1, $raw2);
ok($diff == 0, "hatch images different");
# this shouldn't match
$rhatchb = Imager::i_new_fill_hatch($red, $blue, 0, 1, undef, 1, 1);
Imager::i_box_cfill($raw2, 0, 0, 99, 99, $rhatchb);
$diff = Imager::i_img_diff($raw1, $raw2);
ok($diff, "hatch images the same!");
# custom hatch
# the inverse of the 2x2 checkerboard
my $hatch = pack("C8", 0x33, 0x33, 0xCC, 0xCC, 0x33, 0x33, 0xCC, 0xCC);
my $rcustom = Imager::i_new_fill_hatch($blue, $red, 0, 0, $hatch, 0, 0);
Imager::i_box_cfill($raw2, 0, 0, 99, 99, $rcustom);
$diff = Imager::i_img_diff($raw1, $raw2);
ok(!$diff, "custom hatch mismatch");
{
# basic test of floating color hatch fills
# this will exercise the code that the gcc shipped with OS X 10.4
# forgets to generate
# the float version is called iff we're working with a non-8-bit image
# i_new_fill_hatchf() makes the same object as i_new_fill_hatch() but
# we test the other construction code path here
my $fraw1 = Imager::i_img_double_new(100, 100, 3);
my $fhatch1 = Imager::i_new_fill_hatchf($redf, $bluef, 0, 1, undef, 0, 0);
ok($fraw1, "making double image 1");
ok($fhatch1, "making float hatch 1");
Imager::i_box_cfill($fraw1, 0, 0, 99, 99, $fhatch1);
my $fraw2 = Imager::i_img_double_new(100, 100, 3);
my $fhatch2 = Imager::i_new_fill_hatchf($bluef, $redf, 0, 1, undef, 0, 2);
ok($fraw2, "making double image 2");
ok($fhatch2, "making float hatch 2");
Imager::i_box_cfill($fraw2, 0, 0, 99, 99, $fhatch2);
$diff = Imager::i_img_diff($fraw1, $fraw2);
ok(!$diff, "float custom hatch mismatch");
save($fraw1, "testout/t20hatchf1.ppm");
save($fraw2, "testout/t20hatchf2.ppm");
}
# test the oo interface
my $im1 = Imager->new(xsize=>100, ysize=>100);
my $im2 = Imager->new(xsize=>100, ysize=>100);
my $solid = Imager::Fill->new(solid=>'#FF0000');
ok($solid, "creating oo solid fill");
ok($solid->{fill}, "bad oo solid fill");
$im1->box(fill=>$solid);
$im2->box(filled=>1, color=>$red);
$diff = Imager::i_img_diff($im1->{IMG}, $im2->{IMG});
ok(!$diff, "oo solid fill");
my $hatcha = Imager::Fill->new(hatch=>'check2x2');
my $hatchb = Imager::Fill->new(hatch=>'check2x2', dx=>2);
$im1->box(fill=>$hatcha);
$im2->box(fill=>$hatchb);
# should be different
$diff = Imager::i_img_diff($im1->{IMG}, $im2->{IMG});
ok($diff, "offset checks the same!");
$hatchb = Imager::Fill->new(hatch=>'check2x2', dx=>2, dy=>2);
$im2->box(fill=>$hatchb);
$diff = Imager::i_img_diff($im1->{IMG}, $im2->{IMG});
ok(!$diff, "offset into similar check should be the same");
# test dymanic build of fill
$im2->box(fill=>{hatch=>'check2x2', dx=>2, fg=>NC(255,255,255),
bg=>NC(0,0,0)});
$diff = Imager::i_img_diff($im1->{IMG}, $im2->{IMG});
ok(!$diff, "offset and flipped should be the same");
# a simple demo
my $im = Imager->new(xsize=>200, ysize=>200);
$im->box(xmin=>10, ymin=>10, xmax=>190, ymax=>190,
fill=>{ hatch=>'check4x4',
fg=>NC(128, 0, 0),
bg=>NC(128, 64, 0) })
or print "# ",$im->errstr,"\n";
$im->arc(r=>80, d1=>45, d2=>75,
fill=>{ hatch=>'stipple2',
combine=>1,
fg=>[ 0, 0, 0, 255 ],
bg=>{ rgba=>[255,255,255,160] } })
or print "# ",$im->errstr,"\n";
$im->arc(r=>80, d1=>75, d2=>135,
fill=>{ fountain=>'radial', xa=>100, ya=>100, xb=>20, yb=>100 })
or print "# ",$im->errstr,"\n";
$im->write(file=>'testout/t20_sample.ppm');
# flood fill tests
my $rffimg = Imager::ImgRaw::new(100, 100, 3);
# build a H
Imager::i_box_filled($rffimg, 10, 10, 20, 90, $blue);
Imager::i_box_filled($rffimg, 80, 10, 90, 90, $blue);
Imager::i_box_filled($rffimg, 20, 45, 80, 55, $blue);
my $black = Imager::Color->new(0, 0, 0);
Imager::i_flood_fill($rffimg, 15, 15, $red);
my $rffcmp = Imager::ImgRaw::new(100, 100, 3);
# build a H
Imager::i_box_filled($rffcmp, 10, 10, 20, 90, $red);
Imager::i_box_filled($rffcmp, 80, 10, 90, 90, $red);
Imager::i_box_filled($rffcmp, 20, 45, 80, 55, $red);
$diff = Imager::i_img_diff($rffimg, $rffcmp);
ok(!$diff, "flood fill difference");
my $ffim = Imager->new(xsize=>100, ysize=>100);
my $yellow = Imager::Color->new(255, 255, 0);
$ffim->box(xmin=>10, ymin=>10, xmax=>20, ymax=>90, color=>$blue, filled=>1);
$ffim->box(xmin=>20, ymin=>45, xmax=>80, ymax=>55, color=>$blue, filled=>1);
$ffim->box(xmin=>80, ymin=>10, xmax=>90, ymax=>90, color=>$blue, filled=>1);
ok($ffim->flood_fill('x'=>50, 'y'=>50, color=>$red), "flood fill");
$diff = Imager::i_img_diff($rffcmp, $ffim->{IMG});
ok(!$diff, "oo flood fill difference");
$ffim->flood_fill('x'=>50, 'y'=>50,
fill=> {
hatch => 'check2x2',
fg => '0000FF',
});
# fill=>{
# fountain=>'radial',
# xa=>50, ya=>50,
# xb=>10, yb=>10,
# });
$ffim->write(file=>'testout/t20_ooflood.ppm');
my $copy = $ffim->copy;
ok($ffim->flood_fill('x' => 50, 'y' => 50,
color => $red, border => '000000'),
"border solid flood fill");
is(Imager::i_img_diff($ffim->{IMG}, $rffcmp), 0, "compare");
ok($ffim->flood_fill('x' => 50, 'y' => 50,
fill => { hatch => 'check2x2', fg => '0000FF', },
border => '000000'),
"border cfill fill");
is(Imager::i_img_diff($ffim->{IMG}, $copy->{IMG}), 0,
"compare");
# test combining modes
my $fill = NC(192, 128, 128, 128);
my $target = NC(64, 32, 64);
my $trans_target = NC(64, 32, 64, 128);
my %comb_tests =
(
none=>
{
opaque => $fill,
trans => $fill,
},
normal=>
{
opaque => NC(128, 80, 96),
trans => NC(150, 96, 107, 191),
},
multiply =>
{
opaque => NC(56, 24, 48),
trans => NC(101, 58, 74, 192),
},
dissolve =>
{
opaque => [ $target, NC(192, 128, 128, 255) ],
trans => [ $trans_target, NC(192, 128, 128, 255) ],
},
add =>
{
opaque => NC(159, 96, 128),
trans => NC(128, 80, 96, 255),
},
subtract =>
{
opaque => NC(0, 0, 0),
trans => NC(0, 0, 0, 255),
},
diff =>
{
opaque => NC(96, 64, 64),
trans => NC(127, 85, 85, 192),
},
lighten =>
{
opaque => NC(128, 80, 96),
trans => NC(149, 95, 106, 192),
},
darken =>
{
opaque => $target,
trans => NC(106, 63, 85, 192),
},
# the following results are based on the results of the tests and
# are suspect for that reason (and were broken at one point <sigh>)
# but trying to work them out manually just makes my head hurt - TC
hue =>
{
opaque => NC(64, 32, 47),
trans => NC(64, 32, 42, 128),
},
saturation =>
{
opaque => NC(63, 37, 64),
trans => NC(64, 39, 64, 128),
},
value =>
{
opaque => NC(127, 64, 128),
trans => NC(149, 75, 150, 128),
},
color =>
{
opaque => NC(64, 37, 52),
trans => NC(64, 39, 50, 128),
},
);
for my $comb (Imager::Fill->combines) {
my $test = $comb_tests{$comb};
my $fillobj = Imager::Fill->new(solid=>$fill, combine=>$comb);
for my $bits (qw(8 double)) {
{
my $targim = Imager->new(xsize=>4, ysize=>4, bits => $bits);
$targim->box(filled=>1, color=>$target);
$targim->box(fill=>$fillobj);
my $c = Imager::i_get_pixel($targim->{IMG}, 1, 1);
my $allowed = $test->{opaque};
$allowed =~ /ARRAY/ or $allowed = [ $allowed ];
ok(scalar grep(color_close($_, $c), @$allowed),
"opaque '$comb' $bits bits")
or print "# got:",join(",", $c->rgba)," allowed: ",
join("|", map { join(",", $_->rgba) } @$allowed),"\n";
}
{
# make sure the alpha path in the combine function produces the same
# or at least as sane a result as the non-alpha path
my $targim = Imager->new(xsize=>4, ysize=>4, channels => 4, bits => $bits);
$targim->box(filled=>1, color=>$target);
$targim->box(fill=>$fillobj);
my $c = Imager::i_get_pixel($targim->{IMG}, 1, 1);
my $allowed = $test->{opaque};
$allowed =~ /ARRAY/ or $allowed = [ $allowed ];
ok(scalar grep(color_close4($_, $c), @$allowed),
"opaque '$comb' 4-channel $bits bits")
or print "# got:",join(",", $c->rgba)," allowed: ",
join("|", map { join(",", $_->rgba) } @$allowed),"\n";
}
{
my $transim = Imager->new(xsize => 4, ysize => 4, channels => 4, bits => $bits);
$transim->box(filled=>1, color=>$trans_target);
$transim->box(fill => $fillobj);
my $c = $transim->getpixel(x => 1, 'y' => 1);
my $allowed = $test->{trans};
$allowed =~ /ARRAY/ or $allowed = [ $allowed ];
ok(scalar grep(color_close4($_, $c), @$allowed),
"translucent '$comb' $bits bits")
or print "# got:",join(",", $c->rgba)," allowed: ",
join("|", map { join(",", $_->rgba) } @$allowed),"\n";
}
}
}
ok($ffim->arc(r=>45, color=>$blue, aa=>1), "aa circle");
$ffim->write(file=>"testout/t20_aacircle.ppm");
# image based fills
my $green = NC(0, 255, 0);
my $fillim = Imager->new(xsize=>40, ysize=>40, channels=>4);
$fillim->box(filled=>1, xmin=>5, ymin=>5, xmax=>35, ymax=>35,
color=>NC(0, 0, 255, 128));
$fillim->arc(filled=>1, r=>10, color=>$green, aa=>1);
my $ooim = Imager->new(xsize=>150, ysize=>150);
$ooim->box(filled=>1, color=>$green, xmin=>70, ymin=>25, xmax=>130, ymax=>125);
$ooim->box(filled=>1, color=>$blue, xmin=>20, ymin=>25, xmax=>80, ymax=>125);
$ooim->arc(r=>30, color=>$red, aa=>1);
my $oocopy = $ooim->copy();
ok($oocopy->arc(fill=>{image=>$fillim,
combine=>'normal',
xoff=>5}, r=>40),
"image based fill");
$oocopy->write(file=>'testout/t20_image.ppm');
# a more complex version
use Imager::Matrix2d ':handy';
$oocopy = $ooim->copy;
ok($oocopy->arc(fill=>{
image=>$fillim,
combine=>'normal',
matrix=>m2d_rotate(degrees=>30),
xoff=>5
}, r=>40),
"transformed image based fill");
$oocopy->write(file=>'testout/t20_image_xform.ppm');
ok(!$oocopy->arc(fill=>{ hatch=>"not really a hatch" }, r=>20),
"error handling of automatic fill conversion");
ok($oocopy->errstr =~ /Unknown hatch type/,
"error message for automatic fill conversion");
# previous box fills to float images, or using the fountain fill
# got into a loop here
SKIP:
{
skip("can't test without alarm()", 1) unless $Config{d_alarm};
skip("Your signals are misconfigured", 1) unless exists $SIG{ALRM};
local $SIG{ALRM} = sub { die; };
eval {
alarm(2);
ok($ooim->box(xmin=>20, ymin=>20, xmax=>80, ymax=>40,
fill=>{ fountain=>'linear', xa=>20, ya=>20, xb=>80,
yb=>20 }), "linear box fill");
alarm 0;
};
$@ and ok(0, "linear box fill $@");
}
# test that passing in a non-array ref returns an error
{
my $fill = Imager::Fill->new(fountain=>'linear',
xa => 20, ya=>20, xb=>20, yb=>40,
segments=>"invalid");
ok(!$fill, "passing invalid segments produces an error");
cmp_ok(Imager->errstr, '=~', 'array reference',
"check the error message");
}
# test that colors in segments are converted
{
my @segs =
(
[ 0.0, 0.5, 1.0, '000000', '#FFF', 0, 0 ],
);
my $fill = Imager::Fill->new(fountain=>'linear',
xa => 0, ya=>20, xb=>49, yb=>20,
segments=>\@segs);
ok($fill, "check that color names are converted")
or print "# ",Imager->errstr,"\n";
my $im = Imager->new(xsize=>50, ysize=>50);
$im->box(fill=>$fill);
my $left = $im->getpixel('x'=>0, 'y'=>20);
ok(color_close($left, Imager::Color->new(0,0,0)),
"check black converted correctly");
my $right = $im->getpixel('x'=>49, 'y'=>20);
ok(color_close($right, Imager::Color->new(255,255,255)),
"check white converted correctly");
# check that invalid colors handled correctly
my @segs2 =
(
[ 0.0, 0.5, 1.0, '000000', 'FxFxFx', 0, 0 ],
);
my $fill2 = Imager::Fill->new(fountain=>'linear',
xa => 0, ya=>20, xb=>49, yb=>20,
segments=>\@segs2);
ok(!$fill2, "check handling of invalid color names");
cmp_ok(Imager->errstr, '=~', 'No color named', "check error message");
}
{ # RT #35278
# hatch fills on a grey scale image don't adapt colors
for my $bits (8, 'double') {
my $im_g = Imager->new(xsize => 10, ysize => 10, channels => 1, bits => $bits);
$im_g->box(filled => 1, color => 'FFFFFF');
my $fill = Imager::Fill->new
(
combine => 'normal',
hatch => 'weave',
fg => '000000',
bg => 'FFFFFF'
);
$im_g->box(fill => $fill);
my $im_c = Imager->new(xsize => 10, ysize => 10, channels => 3, bits => $bits);
$im_c->box(filled => 1, color => 'FFFFFF');
$im_c->box(fill => $fill);
my $im_cg = $im_g->convert(preset => 'rgb');
is_image($im_c, $im_cg, "check hatch is the same between color and greyscale (bits $bits)");
# check the same for image fills
my $grey_fill = Imager::Fill->new
(
image => $im_g,
combine => 'normal'
);
my $im_cfg = Imager->new(xsize => 20, ysize => 20, bits => $bits);
$im_cfg->box(filled => 1, color => '808080');
$im_cfg->box(fill => $grey_fill);
my $rgb_fill = Imager::Fill->new
(
image => $im_cg,
combine => 'normal'
);
my $im_cfc = Imager->new(xsize => 20, ysize => 20, bits => $bits);
$im_cfc->box(filled => 1, color => '808080');
$im_cfc->box(fill => $rgb_fill);
is_image($im_cfg, $im_cfc, "check filling from grey image matches filling from rgb (bits = $bits)");
my $im_gfg = Imager->new(xsize => 20, ysize => 20, channels => 1, bits => $bits);
$im_gfg->box(filled => 1, color => '808080');
$im_gfg->box(fill => $grey_fill);
my $im_gfg_c = $im_gfg->convert(preset => 'rgb');
is_image($im_gfg_c, $im_cfg, "check grey filled with grey against base (bits = $bits)");
my $im_gfc = Imager->new(xsize => 20, ysize => 20, channels => 1, bits => $bits);
$im_gfc->box(filled => 1, color => '808080');
$im_gfc->box(fill => $rgb_fill);
my $im_gfc_c = $im_gfc->convert(preset => 'rgb');
is_image($im_gfc_c, $im_cfg, "check grey filled with color against base (bits = $bits)");
}
}
{ # alpha modifying fills
{ # 8-bit/sample
my $base_img = Imager->new(xsize => 4, ysize => 2, channels => 4);
$base_img->setscanline
(
x => 0,
y => 0,
pixels =>
[
map Imager::Color->new($_),
qw/FF000020 00FF0080 00008040 FFFF00FF/,
],
);
$base_img->setscanline
(
x => 0,
y => 1,
pixels =>
[
map Imager::Color->new($_),
qw/FFFF00FF FF000000 00FF0080 00008040/
]
);
my $base_fill = Imager::Fill->new
(
image => $base_img,
combine => "normal",
);
ok($base_fill, "make the base image fill");
my $fill50 = Imager::Fill->new(type => "opacity", opacity => 0.5, other => $base_fill)
or print "# ", Imager->errstr, "\n";
ok($fill50, "make 50% alpha translation fill");
{ # 4 channel image
my $out = Imager->new(xsize => 10, ysize => 10, channels => 4);
$out->box(fill => $fill50);
is_color4($out->getpixel(x => 0, y => 0),
255, 0, 0, 16, "check alpha output");
is_color4($out->getpixel(x => 2, y => 1),
0, 255, 0, 64, "check alpha output");
$out->box(filled => 1, color => "000000");
is_color4($out->getpixel(x => 0, y => 0),
0, 0, 0, 255, "check after clear");
$out->box(fill => $fill50);
is_color4($out->getpixel(x => 4, y => 2),
16, 0, 0, 255, "check drawn against background");
is_color4($out->getpixel(x => 6, y => 3),
0, 64, 0, 255, "check drawn against background");
}
{ # 3 channel image
my $out = Imager->new(xsize => 10, ysize => 10, channels => 3);
$out->box(fill => $fill50);
is_color3($out->getpixel(x => 0, y => 0),
16, 0, 0, "check alpha output");
is_color3($out->getpixel(x => 2, y => 1),
0, 64, 0, "check alpha output");
is_color3($out->getpixel(x => 0, y => 1),
128, 128, 0, "check alpha output");
}
}
{ # double/sample
use Imager::Color::Float;
my $base_img = Imager->new(xsize => 4, ysize => 2, channels => 4, bits => "double");
$base_img->setscanline
(
x => 0,
y => 0,
pixels =>
[
map Imager::Color::Float->new(@$_),
[ 1, 0, 0, 0.125 ],
[ 0, 1, 0, 0.5 ],
[ 0, 0, 0.5, 0.25 ],
[ 1, 1, 0, 1 ],
],
);
$base_img->setscanline
(
x => 0,
y => 1,
pixels =>
[
map Imager::Color::Float->new(@$_),
[ 1, 1, 0, 1 ],
[ 1, 0, 0, 0 ],
[ 0, 1, 0, 0.5 ],
[ 0, 0, 0.5, 0.25 ],
]
);
my $base_fill = Imager::Fill->new
(
image => $base_img,
combine => "normal",
);
ok($base_fill, "make the base image fill");
my $fill50 = Imager::Fill->new(type => "opacity", opacity => 0.5, other => $base_fill)
or print "# ", Imager->errstr, "\n";
ok($fill50, "make 50% alpha translation fill");
my $out = Imager->new(xsize => 10, ysize => 10, channels => 4, bits => "double");
$out->box(fill => $fill50);
is_fcolor4($out->getpixel(x => 0, y => 0, type => "float"),
1, 0, 0, 0.0625, "check alpha output at 0,0");
is_fcolor4($out->getpixel(x => 2, y => 1, type => "float"),
0, 1, 0, 0.25, "check alpha output at 2,1");
$out->box(filled => 1, color => "000000");
is_fcolor4($out->getpixel(x => 0, y => 0, type => "float"),
0, 0, 0, 1, "check after clear");
$out->box(fill => $fill50);
is_fcolor4($out->getpixel(x => 4, y => 2, type => "float"),
0.0625, 0, 0, 1, "check drawn against background at 4,2");
is_fcolor4($out->getpixel(x => 6, y => 3, type => "float"),
0, 0.25, 0, 1, "check drawn against background at 6,3");
}
ok(!Imager::Fill->new(type => "opacity"),
"should fail to make an opacity fill with no other fill object");
is(Imager->errstr, "'other' parameter required to create opacity fill",
"check error message");
ok(!Imager::Fill->new(type => "opacity", other => "xx"),
"should fail to make an opacity fill with a bad other parameter");
is(Imager->errstr, "'other' parameter must be an Imager::Fill object to create an opacity fill",
"check error message");
# check auto conversion of hashes
ok(Imager::Fill->new(type => "opacity", other => { solid => "FF0000" }),
"check we auto-create fills")
or print "# ", Imager->errstr, "\n";
{
# fill with combine none was modifying the wrong channel for a
# no-alpha target image
my $fill = Imager::Fill->new(solid => "#FFF", combine => "none");
my $fill2 = Imager::Fill->new
(
type => "opacity",
opacity => 0.5,
other => $fill
);
my $im = Imager->new(xsize => 1, ysize => 1);
ok($im->box(fill => $fill2), "fill with replacement opacity fill");
is_color3($im->getpixel(x => 0, y => 0), 255, 255, 255,
"check for correct colour");
}
{
require Imager::Fountain;
my $fount = Imager::Fountain->new;
$fount->add(c1 => "FFFFFF"); # simple white to black
# base fill is a fountain
my $base_fill = Imager::Fill->new
(
fountain => "linear",
segments => $fount,
xa => 0,
ya => 0,
xb => 100,
yb => 100,
);
ok($base_fill, "made fountain fill base");
my $op_fill = Imager::Fill->new
(
type => "opacity",
other => $base_fill,
opacity => 0.5,
);
ok($op_fill, "made opacity fountain fill");
my $im = Imager->new(xsize => 100, ysize => 100);
ok($im->box(fill => $op_fill), "draw with it");
}
}
{ # RT 71309
my $fount = Imager::Fountain->simple(colors => [ '#804041', '#804041' ],
positions => [ 0, 1 ]);
my $im = Imager->new(xsize => 40, ysize => 40);
$im->box(filled => 1, color => '#804040');
my $fill = Imager::Fill->new
(
combine => 0,
fountain => "linear",
segments => $fount,
xa => 0, ya => 0,
xb => 40, yb => 40,
);
$im->polygon(fill => $fill,
points =>
[
[ 0, 0 ],
[ 40, 20 ],
[ 20, 40 ],
]
);
# the bug magnified the differences between the source and destination
# color, blending between the background and fill colors here only allows
# for those 2 colors in the result.
# with the bug extra colors appeared along the edge of the polygon.
is($im->getcolorcount, 2, "only original and fill color");
}
SKIP:
{
# the wrong image dimension was used for adjusting vs yoff,
# producing uncovered parts of the output image
my $tx = Imager->new(xsize => 30, ysize => 20);
ok($tx, "create texture image")
or diag "create texture image", Imager->errstr;
$tx or skip "no texture image", 7;
ok($tx->box(filled => 1, color => "ff0000"), "fill texture image")
or diag "fill texture image", $tx->errstr;
my $cmp = Imager->new(xsize => 100, ysize => 100);
ok($cmp, "create comparison image")
or diag "create comparison image: ", Imager->errstr;
$cmp or skip "no comparison image", 5;
ok($cmp->box(filled => 1, color => "FF0000"), "fill compare image")
or diag "fill compare image: ", $cmp->errstr;
my $im = Imager->new(xsize => 100, ysize => 100);
ok($im, "make test image")
or diag "make test image: ", Imager->errstr;
$im or skip "no test image", 3;
my $fill = Imager::Fill->new(image => $tx, yoff => 10);
ok($fill, "make xoff=10 image fill")
or diag "make fill: ", Imager->errstr;
$fill or skip "no fill", 2;
ok($im->box(fill => $fill), "fill test image")
or diag "fill test image: ", $im->errstr;
is_image($im, $cmp, "check test image");
}
sub color_close {
my ($c1, $c2) = @_;
my @c1 = $c1->rgba;
my @c2 = $c2->rgba;
for my $i (0..2) {
if (abs($c1[$i]-$c2[$i]) > 2) {
return 0;
}
}
return 1;
}
sub color_close4 {
my ($c1, $c2) = @_;
my @c1 = $c1->rgba;
my @c2 = $c2->rgba;
for my $i (0..3) {
if (abs($c1[$i]-$c2[$i]) > 2) {
return 0;
}
}
return 1;
}
# for use during testing
sub save {
my ($im, $name) = @_;
open FH, "> $name" or die "Cannot create $name: $!";
binmode FH;
my $io = Imager::io_new_fd(fileno(FH));
Imager::i_writeppm_wiol($im, $io) or die "Cannot save to $name";
undef $io;
close FH;
}