#!/usr/bin/perl use strict; use warnings; use Slic3r::XS; use Test::More tests => 35; use constant PI => 4 * atan2(1, 1); use constant EPSILON => 1E-4; my $points = [ [100, 100], [200, 100], ]; my $line = Slic3r::Line->new(@$points); { my $clone = $line->clone; $clone->translate(10, -5); is_deeply $clone->pp, [ [110, 95], [210, 95], ], 'translate'; } { ok +Slic3r::Line->new([0,0],[200,0])->parallel_to_line(Slic3r::Line->new([200,200],[0,200])), 'parallel_to'; } foreach my $base_angle (0, PI/4, PI/2, PI) { my $line = Slic3r::Line->new([0,0], [100,0]); $line->rotate($base_angle, [0,0]); my $clone = $line->clone; ok $line->parallel_to_line($clone), 'line is parallel to self'; $clone->reverse; ok $line->parallel_to_line($clone), 'line is parallel to self + PI'; ok $line->parallel_to($line->direction), 'line is parallel to its direction'; ok $line->parallel_to($line->direction + PI), 'line is parallel to its direction + PI'; ok $line->parallel_to($line->direction - PI), 'line is parallel to its direction - PI'; { my $line2 = $line->clone; $line2->reverse; ok $line->parallel_to_line($line2), 'line is parallel to its opposite'; } { my $line2 = $line->clone; $line2->rotate(+(EPSILON)/2, [0,0]); ok $line->parallel_to_line($line2), 'line is parallel within epsilon'; } { my $line2 = $line->clone; $line2->rotate(-(EPSILON)/2, [0,0]); ok $line->parallel_to_line($line2), 'line is parallel within epsilon'; } } { my $a = Slic3r::Line->new([100, 0], [200, 0]); my $b = Slic3r::Line->new([300, 300], [300, 100]); my $r = $a->intersection_infinite($b); is_deeply $r->pp, [300, 0], 'intersection_infinite'; } __END__