/
t020masked.t
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/
t020masked.t
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#!perl -w
BEGIN { $| = 1; print "1..35\n"; }
END {print "not ok 1\n" unless $loaded;}
use Imager qw(:all :handy);
#use Data::Dumper;
$loaded = 1;
print "ok 1\n";
init_log("testout/t020masked.log", 1);
my $base_rgb = Imager::ImgRaw::new(100, 100, 3);
# put something in there
my $red = NC(255, 0, 0);
my $green = NC(0, 255, 0);
my $blue = NC(0, 0, 255);
my $white = NC(255, 255, 255);
my @cols = ($red, $green, $blue);
for my $y (0..99) {
Imager::i_plin($base_rgb, 0, $y, ($cols[$y % 3] ) x 100);
}
# first a simple subset image
my $s_rgb = Imager::i_img_masked_new($base_rgb, undef, 25, 25, 50, 50);
print Imager::i_img_getchannels($s_rgb) == 3
? "ok 2\n" : "not ok 2 # 1 channel image channel count mismatch\n";
print Imager::i_img_getmask($s_rgb) & 1
? "ok 3\n" : "not ok 3 # 1 channel image bad mask\n";
print Imager::i_img_virtual($s_rgb) == 0
? "not ok 4 # 1 channel image thinks it isn't virtual\n" : "ok 4\n";
print Imager::i_img_bits($s_rgb) == 8
? "ok 5\n" : "not ok 5 # 1 channel image has bits != 8\n";
print Imager::i_img_type($s_rgb) == 0 # direct
? "ok 6\n" : "not ok 6 # 1 channel image isn't direct\n";
my @ginfo = i_img_info($s_rgb);
print $ginfo[0] == 50
? "ok 7\n" : "not ok 7 # image width incorrect\n";
print $ginfo[1] == 50
? "ok 8\n" : "not ok 8 # image height incorrect\n";
# sample some pixels through the subset
my $c = Imager::i_get_pixel($s_rgb, 0, 0);
color_cmp($c, $green) == 0 or print "not ";
print "ok 9\n";
$c = Imager::i_get_pixel($s_rgb, 49, 49);
# (25+49)%3 = 2
color_cmp($c, $blue) == 0 or print "not ";
print "ok 10\n";
# try writing to it
for my $y (0..49) {
Imager::i_plin($s_rgb, 0, $y, ($cols[$y % 3]) x 50);
}
print "ok 11\n";
# and checking the target image
$c = Imager::i_get_pixel($base_rgb, 25, 25);
color_cmp($c, $red) == 0 or print "not ";
print "ok 12\n";
$c = Imager::i_get_pixel($base_rgb, 29, 29);
color_cmp($c, $green) == 0 or print "not ";
print "ok 13\n";
undef $s_rgb;
# a basic background
for my $y (0..99) {
Imager::i_plin($base_rgb, 0, $y, ($red ) x 100);
}
my $mask = Imager::ImgRaw::new(50, 50, 1);
# some venetian blinds
for my $y (4..20) {
Imager::i_plin($mask, 5, $y*2, ($white) x 40);
}
# with a strip down the middle
for my $y (0..49) {
Imager::i_plin($mask, 20, $y, ($white) x 8);
}
my $m_rgb = Imager::i_img_masked_new($base_rgb, $mask, 25, 25, 50, 50);
$m_rgb or print "not ";
print "ok 14\n";
for my $y (0..49) {
Imager::i_plin($m_rgb, 0, $y, ($green) x 50);
}
my @color_tests =
(
[ 25+0, 25+0, $red ],
[ 25+19, 25+0, $red ],
[ 25+20, 25+0, $green ],
[ 25+27, 25+0, $green ],
[ 25+28, 25+0, $red ],
[ 25+49, 25+0, $red ],
[ 25+19, 25+7, $red ],
[ 25+19, 25+8, $green ],
[ 25+19, 25+9, $red ],
[ 25+0, 25+8, $red ],
[ 25+4, 25+8, $red ],
[ 25+5, 25+8, $green ],
[ 25+44, 25+8, $green ],
[ 25+45, 25+8, $red ],
[ 25+49, 25+49, $red ],
);
my $test_num = 15;
for my $test (@color_tests) {
color_test($test_num++, $base_rgb, @$test);
}
{
# tests for the OO versions, fairly simple, since the basic functionality
# is covered by the low-level interface tests
my $base = Imager->new(xsize=>100, ysize=>100)
or print "not ";
print "ok 30\n";
$base->box(color=>$blue, filled=>1); # fill it all
my $mask = Imager->new(xsize=>80, ysize=>80, channels=>1);
$mask->box(color=>$white, filled=>1, xmin=>5, xmax=>75, ymin=>5, ymax=>75);
my $m_img = $base->masked(mask=>$mask, left=>5, top=>5)
or print "not ";
print "ok 31\n";
$m_img->getwidth == 80 or print "not ";
print "ok 32\n";
$m_img->box(color=>$green, filled=>1);
color_cmp(Imager::i_get_pixel($m_img->{IMG}, 0, 0), $blue) == 0
or print "not ";
print "ok 33\n";
color_cmp(Imager::i_get_pixel($m_img->{IMG}, 5, 5), $green) == 0
or print "not ";
print "ok 34\n";
# older versions destroyed the Imager::ImgRaw object manually in
# Imager::DESTROY rather than letting Imager::ImgRaw::DESTROY
# destroy the object
# so we test here by destroying the base and mask objects and trying
# to draw to the masked wrapper
# you may need to test with ElectricFence to trigger the problem
undef $mask;
undef $base;
$m_img->box(color=>$blue, filled=>1);
print "ok 35\n";
}
sub color_test {
my ($num, $im, $x, $y, $expected) = @_;
my $c = Imager::i_get_pixel($im, $x, $y);
color_cmp($c, $expected) == 0 or print "not ";
print "ok $num # $x, $y\n";
}
sub color_cmp {
my ($l, $r) = @_;
my @l = $l->rgba;
my @r = $r->rgba;
# print "# (",join(",", @l[0..2]),") <=> (",join(",", @r[0..2]),")\n";
return $l[0] <=> $r[0]
|| $l[1] <=> $r[1]
|| $l[2] <=> $r[2];
}