PrusaSlicer-NonPlainar/tests/libslic3r/test_polygon.cpp

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#include <catch2/catch.hpp>
#include "libslic3r/Point.hpp"
#include "libslic3r/Polygon.hpp"
using namespace Slic3r;
SCENARIO("Converted Perl tests", "[Polygon]") {
GIVEN("ccw_square") {
Polygon ccw_square{ { 100, 100 }, { 200, 100 }, { 200, 200 }, { 100, 200 } };
Polygon cw_square(ccw_square);
cw_square.reverse();
THEN("ccw_square is valid") {
REQUIRE(ccw_square.is_valid());
}
THEN("cw_square is valid") {
REQUIRE(cw_square.is_valid());
}
THEN("ccw_square.area") {
REQUIRE(ccw_square.area() == 100 * 100);
}
THEN("cw_square.area") {
REQUIRE(cw_square.area() == - 100 * 100);
}
THEN("ccw_square.centroid") {
REQUIRE(ccw_square.centroid() == Point { 150, 150 });
}
THEN("cw_square.centroid") {
REQUIRE(cw_square.centroid() == Point { 150, 150 });
}
THEN("ccw_square.contains_point(150, 150)") {
REQUIRE(ccw_square.contains({ 150, 150 }));
}
THEN("cw_square.contains_point(150, 150)") {
REQUIRE(cw_square.contains({ 150, 150 }));
}
THEN("conversion to lines") {
REQUIRE(ccw_square.lines() == Lines{
{ { 100, 100 }, { 200, 100 } },
{ { 200, 100 }, { 200, 200 } },
{ { 200, 200 }, { 100, 200 } },
{ { 100, 200 }, { 100, 100 } } });
}
THEN("split_at_first_point") {
REQUIRE(ccw_square.split_at_first_point() == Polyline { ccw_square[0], ccw_square[1], ccw_square[2], ccw_square[3], ccw_square[0] });
}
THEN("split_at_index(2)") {
REQUIRE(ccw_square.split_at_index(2) == Polyline { ccw_square[2], ccw_square[3], ccw_square[0], ccw_square[1], ccw_square[2] });
}
THEN("split_at_vertex(ccw_square[2])") {
REQUIRE(ccw_square.split_at_vertex(ccw_square[2]) == Polyline { ccw_square[2], ccw_square[3], ccw_square[0], ccw_square[1], ccw_square[2] });
}
THEN("is_counter_clockwise") {
REQUIRE(ccw_square.is_counter_clockwise());
}
THEN("! is_counter_clockwise") {
REQUIRE(! cw_square.is_counter_clockwise());
}
THEN("make_counter_clockwise") {
cw_square.make_counter_clockwise();
REQUIRE(cw_square.is_counter_clockwise());
}
THEN("make_counter_clockwise^2") {
cw_square.make_counter_clockwise();
cw_square.make_counter_clockwise();
REQUIRE(cw_square.is_counter_clockwise());
}
THEN("first_point") {
REQUIRE(&ccw_square.first_point() == &ccw_square.points.front());
}
}
GIVEN("Triangulating hexagon") {
Polygon hexagon{ { 100, 0 } };
for (size_t i = 1; i < 6; ++ i) {
Point p = hexagon.points.front();
p.rotate(PI / 3 * i);
hexagon.points.emplace_back(p);
}
Polygons triangles;
hexagon.triangulate_convex(&triangles);
THEN("right number of triangles") {
REQUIRE(triangles.size() == 4);
}
THEN("all triangles are ccw") {
auto it = std::find_if(triangles.begin(), triangles.end(), [](const Polygon &tri) { return tri.is_clockwise(); });
REQUIRE(it == triangles.end());
}
}
GIVEN("General triangle") {
Polygon polygon { { 50000000, 100000000 }, { 300000000, 102000000 }, { 50000000, 104000000 } };
Line line { { 175992032, 102000000 }, { 47983964, 102000000 } };
Point intersection;
bool has_intersection = polygon.intersection(line, &intersection);
THEN("Intersection with line") {
REQUIRE(has_intersection);
REQUIRE(intersection == Point { 50000000, 102000000 });
}
}
}
TEST_CASE("Centroid of Trapezoid must be inside", "[Polygon][Utils]")
{
Slic3r::Polygon trapezoid {
{ 4702134, 1124765853 },
{ -4702134, 1124765853 },
{ -9404268, 1049531706 },
{ 9404268, 1049531706 },
};
Point centroid = trapezoid.centroid();
CHECK(trapezoid.contains(centroid));
}
// This test currently only covers remove_collinear_points.
// All remaining tests are to be ported from xs/t/06_polygon.t
Slic3r::Points collinear_circle({
Slic3r::Point::new_scale(0, 0), // 3 collinear points at beginning
Slic3r::Point::new_scale(10, 0),
Slic3r::Point::new_scale(20, 0),
Slic3r::Point::new_scale(30, 10),
Slic3r::Point::new_scale(40, 20), // 2 collinear points
Slic3r::Point::new_scale(40, 30),
Slic3r::Point::new_scale(30, 40), // 3 collinear points
Slic3r::Point::new_scale(20, 40),
Slic3r::Point::new_scale(10, 40),
Slic3r::Point::new_scale(-10, 20),
Slic3r::Point::new_scale(-20, 10),
Slic3r::Point::new_scale(-20, 0), // 3 collinear points at end
Slic3r::Point::new_scale(-10, 0),
Slic3r::Point::new_scale(-5, 0)
});
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SCENARIO("Remove collinear points from Polygon", "[Polygon]") {
GIVEN("Polygon with collinear points"){
Slic3r::Polygon p(collinear_circle);
WHEN("collinear points are removed") {
remove_collinear(p);
THEN("Leading collinear points are removed") {
REQUIRE(p.points.front() == Slic3r::Point::new_scale(20, 0));
}
THEN("Trailing collinear points are removed") {
REQUIRE(p.points.back() == Slic3r::Point::new_scale(-20, 0));
}
THEN("Number of remaining points is correct") {
REQUIRE(p.points.size() == 7);
}
}
}
}