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OrcaSlicer-KX/tests/sla_print/sla_print_tests.cpp
coryrc 4dee32429f Fix tests (#10906) 
* Get libslic3r tests closer to passing

I can't get geometry tests to do anything useful. I've added extra
output, but it hasn't helped me figure out why they don't work
yet. That's also probably the last broken 3mf test doesn't work.

The config tests were mostly broken because of config name changes.

The placeholder_parser tests have some things that may-or-may-not
still apply to Orca.

* Vendor a 3.x version of Catch2

Everything is surely broken at this point.

* Allow building tests separately from Orca with build_linux.sh

* Remove unnecessary log message screwing up ctest

Same solution as Prusaslicer

* Make 2 TriangleMesh methods const

Since they can be.

* Move method comment to the header where it belongsc

* Add indirectly-included header directly

Transform3d IIRC

* libslic3r tests converted to Catch2 v3

Still has 3 failing tests, but builds and runs.

* Disable 2D convex hull test and comment what I've learned

Not sure the best way to solve this yet.

* Add diff compare method for DynamicConfig

Help the unit test report errors better.

* Perl no longer used, remove comment line

* Clang-format Config.?pp

So difficult to work with ATM

* Remove cpp17 unit tests

Who gives a shit

* Don't need explicit "example" test

We have lots of tests to serve as examples.

* Leave breadcrumb to enable sla_print tests

* Fix serialization of DynamicConfig

Add comments to test, because these code paths might not be even used
anymore.

* Update run_unit_tests to run all the tests

By the time I'm done with the PR all tests will either excluded by
default or passing, so just do all.

* Update how-to-test now that build_linux.sh builds tests separately

* Update cmake regenerate instructions

Read this online; hopefully works.

* Enable slic3rutils test with Catch2 v3

* Port libnest2d and fff_print to Catch2 v3

They build. Many failing.

* Add slightly more info to Objects not fit on bed exception

* Disable failing fff_print tests from running

They're mostly failing for "objects don't fit on bed" for an
infinite-sized bed. Given infinite bed is probably only used in tests,
it probably was incidentally broken long ago.

* Must checkout tests directory in GH Actions

So we get the test data

* Missed a failing fff_print test

* Disable (most/all) broken libnest2d tests

Trying all, not checking yet though

* Fix Polygon convex/concave detection tests

Document the implementation too. Reorganize the tests to be cleaner.

* Update the test script to run tests in parallel

* Get sla_print tests to build

Probably not passing

* Don't cause full project rebuild when updating test CMakeLists.txts

* Revert "Clang-format Config.?pp"

This reverts commit 771e4c0ad2fdbaa26a8fee77030650afacdc5083.

---------

Co-authored-by: SoftFever <softfeverever@gmail.com>
2025-12-08 22:42:11 +08:00

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#include <unordered_set>
#include <unordered_map>
#include <random>
#include <numeric>
#include <cstdint>
#include "sla_test_utils.hpp"
#include <libslic3r/TriangleMeshSlicer.hpp>
#include <libslic3r/SLA/SupportTreeMesher.hpp>
#include <libslic3r/SLA/Concurrency.hpp>
namespace {
const char *const BELOW_PAD_TEST_OBJECTS[] = {
"20mm_cube.obj",
"V.obj",
};
const char *const AROUND_PAD_TEST_OBJECTS[] = {
"20mm_cube.obj",
"V.obj",
"frog_legs.obj",
"cube_with_concave_hole_enlarged.obj",
};
const char *const SUPPORT_TEST_MODELS[] = {
"cube_with_concave_hole_enlarged_standing.obj",
"A_upsidedown.obj",
"extruder_idler.obj"
};
} // namespace
TEST_CASE("Pillar pairhash should be unique", "[SLASupportGeneration]") {
test_pairhash<int, int>();
test_pairhash<int, long>();
test_pairhash<unsigned, unsigned>();
test_pairhash<unsigned, unsigned long>();
}
TEST_CASE("Support point generator should be deterministic if seeded",
"[SLASupportGeneration], [SLAPointGen]") {
TriangleMesh mesh = load_model("A_upsidedown.obj");
sla::IndexedMesh emesh{mesh};
sla::SupportTreeConfig supportcfg;
sla::SupportPointGenerator::Config autogencfg;
autogencfg.head_diameter = float(2 * supportcfg.head_front_radius_mm);
sla::SupportPointGenerator point_gen{emesh, autogencfg, [] {}, [](int) {}};
auto bb = mesh.bounding_box();
double zmin = bb.min.z();
double zmax = bb.max.z();
double gnd = zmin - supportcfg.object_elevation_mm;
auto layer_h = 0.05f;
auto slicegrid = grid(float(gnd), float(zmax), layer_h);
std::vector<ExPolygons> slices = slice_mesh_ex(mesh.its, slicegrid, CLOSING_RADIUS);
point_gen.seed(0);
point_gen.execute(slices, slicegrid);
auto get_chksum = [](const std::vector<sla::SupportPoint> &pts){
int64_t chksum = 0;
for (auto &pt : pts) {
auto p = scaled(pt.pos);
chksum += p.x() + p.y() + p.z();
}
return chksum;
};
int64_t checksum = get_chksum(point_gen.output());
size_t ptnum = point_gen.output().size();
REQUIRE(point_gen.output().size() > 0);
for (int i = 0; i < 20; ++i) {
point_gen.output().clear();
point_gen.seed(0);
point_gen.execute(slices, slicegrid);
REQUIRE(point_gen.output().size() == ptnum);
REQUIRE(checksum == get_chksum(point_gen.output()));
}
}
TEST_CASE("Flat pad geometry is valid", "[SLASupportGeneration]") {
sla::PadConfig padcfg;
// Disable wings
padcfg.wall_height_mm = .0;
for (auto &fname : BELOW_PAD_TEST_OBJECTS) test_pad(fname, padcfg);
}
TEST_CASE("WingedPadGeometryIsValid", "[SLASupportGeneration]") {
sla::PadConfig padcfg;
// Add some wings to the pad to test the cavity
padcfg.wall_height_mm = 1.;
for (auto &fname : BELOW_PAD_TEST_OBJECTS) test_pad(fname, padcfg);
}
TEST_CASE("FlatPadAroundObjectIsValid", "[SLASupportGeneration]") {
sla::PadConfig padcfg;
// Add some wings to the pad to test the cavity
padcfg.wall_height_mm = 0.;
// padcfg.embed_object.stick_stride_mm = 0.;
padcfg.embed_object.enabled = true;
padcfg.embed_object.everywhere = true;
for (auto &fname : AROUND_PAD_TEST_OBJECTS) test_pad(fname, padcfg);
}
TEST_CASE("WingedPadAroundObjectIsValid", "[SLASupportGeneration]") {
sla::PadConfig padcfg;
// Add some wings to the pad to test the cavity
padcfg.wall_height_mm = 1.;
padcfg.embed_object.enabled = true;
padcfg.embed_object.everywhere = true;
for (auto &fname : AROUND_PAD_TEST_OBJECTS) test_pad(fname, padcfg);
}
TEST_CASE("ElevatedSupportGeometryIsValid", "[SLASupportGeneration]") {
sla::SupportTreeConfig supportcfg;
supportcfg.object_elevation_mm = 10.;
for (auto fname : SUPPORT_TEST_MODELS) test_supports(fname, supportcfg);
}
TEST_CASE("FloorSupportGeometryIsValid", "[SLASupportGeneration]") {
sla::SupportTreeConfig supportcfg;
supportcfg.object_elevation_mm = 0;
for (auto &fname: SUPPORT_TEST_MODELS) test_supports(fname, supportcfg);
}
TEST_CASE("ElevatedSupportsDoNotPierceModel", "[SLASupportGeneration]") {
sla::SupportTreeConfig supportcfg;
for (auto fname : SUPPORT_TEST_MODELS)
test_support_model_collision(fname, supportcfg);
}
TEST_CASE("FloorSupportsDoNotPierceModel", "[SLASupportGeneration]") {
sla::SupportTreeConfig supportcfg;
supportcfg.object_elevation_mm = 0;
for (auto fname : SUPPORT_TEST_MODELS)
test_support_model_collision(fname, supportcfg);
}
TEST_CASE("InitializedRasterShouldBeNONEmpty", "[SLARasterOutput]") {
// Default SL1 display parameters
sla::Resolution res{2560, 1440};
sla::PixelDim pixdim{120. / res.width_px, 68. / res.height_px};
sla::RasterGrayscaleAAGammaPower raster(res, pixdim, {}, 1.);
REQUIRE(raster.resolution().width_px == res.width_px);
REQUIRE(raster.resolution().height_px == res.height_px);
REQUIRE(raster.pixel_dimensions().w_mm == Catch::Approx(pixdim.w_mm));
REQUIRE(raster.pixel_dimensions().h_mm == Catch::Approx(pixdim.h_mm));
}
TEST_CASE("MirroringShouldBeCorrect", "[SLARasterOutput]") {
sla::RasterBase::TMirroring mirrorings[] = {sla::RasterBase::NoMirror,
sla::RasterBase::MirrorX,
sla::RasterBase::MirrorY,
sla::RasterBase::MirrorXY};
sla::RasterBase::Orientation orientations[] =
{sla::RasterBase::roLandscape, sla::RasterBase::roPortrait};
for (auto orientation : orientations)
for (auto &mirror : mirrorings)
check_raster_transformations(orientation, mirror);
}
TEST_CASE("RasterizedPolygonAreaShouldMatch", "[SLARasterOutput]") {
double disp_w = 120., disp_h = 68.;
sla::Resolution res{2560, 1440};
sla::PixelDim pixdim{disp_w / res.width_px, disp_h / res.height_px};
double gamma = 1.;
sla::RasterGrayscaleAAGammaPower raster(res, pixdim, {}, gamma);
auto bb = BoundingBox({0, 0}, {scaled(disp_w), scaled(disp_h)});
ExPolygon poly = square_with_hole(10.);
poly.translate(bb.center().x(), bb.center().y());
raster.draw(poly);
double a = poly.area() / (scaled<double>(1.) * scaled(1.));
double ra = raster_white_area(raster);
double diff = std::abs(a - ra);
REQUIRE(diff <= predict_error(poly, pixdim));
raster.clear();
poly = square_with_hole(60.);
poly.translate(bb.center().x(), bb.center().y());
raster.draw(poly);
a = poly.area() / (scaled<double>(1.) * scaled(1.));
ra = raster_white_area(raster);
diff = std::abs(a - ra);
REQUIRE(diff <= predict_error(poly, pixdim));
sla::RasterGrayscaleAA raster0(res, pixdim, {}, [](double) { return 0.; });
REQUIRE(raster_pxsum(raster0) == 0);
raster0.draw(poly);
ra = raster_white_area(raster);
REQUIRE(raster_pxsum(raster0) == 0);
}
TEST_CASE("halfcone test", "[halfcone]") {
sla::DiffBridge br{Vec3d{1., 1., 1.}, Vec3d{10., 10., 10.}, 0.25, 0.5};
indexed_triangle_set m = sla::get_mesh(br, 45);
its_merge_vertices(m);
its_write_obj(m, "Halfcone.obj");
}
TEST_CASE("Test concurrency")
{
std::vector<double> vals = grid(0., 100., 10.);
double ref = std::accumulate(vals.begin(), vals.end(), 0.);
double s = execution::accumulate(ex_tbb, vals.begin(), vals.end(), 0.);
REQUIRE(s == Catch::Approx(ref));
}
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