PrusaSlicer-NonPlainar/tests/fff_print/test_extrusion_entity.cpp
2022-05-02 14:34:50 +02:00

143 lines
5.3 KiB
C++

#include <catch2/catch.hpp>
#include <cstdlib>
#include "libslic3r/ExtrusionEntityCollection.hpp"
#include "libslic3r/ExtrusionEntity.hpp"
#include "libslic3r/Point.hpp"
#include "libslic3r/ShortestPath.hpp"
#include "libslic3r/libslic3r.h"
#include "test_data.hpp"
using namespace Slic3r;
static inline Slic3r::Point random_point(float LO=-50, float HI=50)
{
Vec2f pt = Vec2f(LO, LO) + (Vec2d(rand(), rand()) * (HI-LO) / RAND_MAX).cast<float>();
return pt.cast<coord_t>();
}
// build a sample extrusion entity collection with random start and end points.
static Slic3r::ExtrusionPath random_path(size_t length = 20, float LO = -50, float HI = 50)
{
ExtrusionPath t {erPerimeter, 1.0, 1.0, 1.0};
for (size_t j = 0; j < length; ++ j)
t.polyline.append(random_point(LO, HI));
return t;
}
static Slic3r::ExtrusionPaths random_paths(size_t count = 10, size_t length = 20, float LO = -50, float HI = 50)
{
Slic3r::ExtrusionPaths p;
for (size_t i = 0; i < count; ++ i)
p.push_back(random_path(length, LO, HI));
return p;
}
SCENARIO("ExtrusionEntityCollection: Polygon flattening", "[ExtrusionEntity]") {
srand(0xDEADBEEF); // consistent seed for test reproducibility.
// Generate one specific random path set and save it for later comparison
Slic3r::ExtrusionPaths nosort_path_set = random_paths();
Slic3r::ExtrusionEntityCollection sub_nosort;
sub_nosort.append(nosort_path_set);
sub_nosort.no_sort = true;
Slic3r::ExtrusionEntityCollection sub_sort;
sub_sort.no_sort = false;
sub_sort.append(random_paths());
GIVEN("A Extrusion Entity Collection with a child that has one child that is marked as no-sort") {
Slic3r::ExtrusionEntityCollection sample;
Slic3r::ExtrusionEntityCollection output;
sample.append(sub_sort);
sample.append(sub_nosort);
sample.append(sub_sort);
WHEN("The EEC is flattened with default options (preserve_order=false)") {
output = sample.flatten();
THEN("The output EEC contains no Extrusion Entity Collections") {
CHECK(std::count_if(output.entities.cbegin(), output.entities.cend(), [=](const ExtrusionEntity* e) {return e->is_collection();}) == 0);
}
}
WHEN("The EEC is flattened with preservation (preserve_order=true)") {
output = sample.flatten(true);
THEN("The output EECs contains one EEC.") {
CHECK(std::count_if(output.entities.cbegin(), output.entities.cend(), [=](const ExtrusionEntity* e) {return e->is_collection();}) == 1);
}
AND_THEN("The ordered EEC contains the same order of elements than the original") {
// find the entity in the collection
for (auto e : output.entities)
if (e->is_collection()) {
ExtrusionEntityCollection *temp = dynamic_cast<ExtrusionEntityCollection*>(e);
// check each Extrusion path against nosort_path_set to see if the first and last match the same
CHECK(nosort_path_set.size() == temp->entities.size());
for (size_t i = 0; i < nosort_path_set.size(); ++ i) {
CHECK(temp->entities[i]->first_point() == nosort_path_set[i].first_point());
CHECK(temp->entities[i]->last_point() == nosort_path_set[i].last_point());
}
}
}
}
}
}
TEST_CASE("ExtrusionEntityCollection: Chained path", "[ExtrusionEntity]") {
struct Test {
Polylines unchained;
Polylines chained;
Point initial_point;
};
std::vector<Test> tests {
{
{
{ {0,15}, {0,18}, {0,20} },
{ {0,10}, {0,8}, {0,5} }
},
{
{ {0,20}, {0,18}, {0,15} },
{ {0,10}, {0,8}, {0,5} }
},
{ 0,30 }
},
{
{
{ {4,0}, {10,0}, {15,0} },
{ {10,5}, {15,5}, {20,5} }
},
{
{ {20,5}, {15,5}, {10,5} },
{ {15,0}, {10,0}, {4,0} }
},
{ 30,0 }
},
{
{
{ {15,0}, {10,0}, {4,0} },
{ {10,5}, {15,5}, {20,5} }
},
{
{ {20,5}, {15,5}, {10,5} },
{ {15,0}, {10,0}, {4,0} }
},
{ 30,0 }
},
};
for (const Test &test : tests) {
Polylines chained = chain_polylines(test.unchained, &test.initial_point);
REQUIRE(chained == test.chained);
ExtrusionEntityCollection unchained_extrusions;
extrusion_entities_append_paths(unchained_extrusions.entities, test.unchained,
erInternalInfill, 0., 0.4f, 0.3f);
ExtrusionEntityCollection chained_extrusions = unchained_extrusions.chained_path_from(test.initial_point);
REQUIRE(chained_extrusions.entities.size() == test.chained.size());
for (size_t i = 0; i < chained_extrusions.entities.size(); ++ i) {
const Points &p1 = test.chained[i].points;
const Points &p2 = dynamic_cast<const ExtrusionPath*>(chained_extrusions.entities[i])->polyline.points;
REQUIRE(p1 == p2);
}
}
}