630 lines
33 KiB
C++
630 lines
33 KiB
C++
#include <catch2/catch.hpp>
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#include <numeric>
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#include <sstream>
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#include "libslic3r/Config.hpp"
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#include "libslic3r/ClipperUtils.hpp"
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#include "libslic3r/Layer.hpp"
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#include "libslic3r/PerimeterGenerator.hpp"
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#include "libslic3r/Print.hpp"
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#include "libslic3r/PrintConfig.hpp"
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#include "libslic3r/SurfaceCollection.hpp"
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#include "libslic3r/libslic3r.h"
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#include "test_data.hpp"
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using namespace Slic3r;
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SCENARIO("Perimeter nesting", "[Perimeters]")
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{
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struct TestData {
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ExPolygons expolygons;
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// expected number of loops
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int total;
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// expected number of external loops
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int external;
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// expected external perimeter
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std::vector<bool> ext_order;
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// expected number of internal contour loops
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int cinternal;
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// expected number of ccw loops
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int ccw;
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// expected ccw/cw order
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std::vector<bool> ccw_order;
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// expected nesting order
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std::vector<std::vector<int>> nesting;
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};
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FullPrintConfig config;
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auto test = [&config](const TestData &data) {
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SurfaceCollection slices;
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slices.append(data.expolygons, stInternal);
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ExtrusionEntityCollection loops;
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ExtrusionEntityCollection gap_fill;
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ExPolygons fill_expolygons;
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Flow flow(1., 1., 1.);
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PerimeterGenerator::Parameters perimeter_generator_params(
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1., // layer height
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-1, // layer ID
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flow, flow, flow, flow,
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static_cast<const PrintRegionConfig&>(config),
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static_cast<const PrintObjectConfig&>(config),
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static_cast<const PrintConfig&>(config),
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false); // spiral_vase
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Polygons lower_layer_polygons_cache;
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for (const Surface &surface : slices)
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// FIXME Lukas H.: Disable this test for Arachne because it is failing and needs more investigation.
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// if (config.perimeter_generator == PerimeterGeneratorType::Arachne)
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// PerimeterGenerator::process_arachne();
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// else
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PerimeterGenerator::process_classic(
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// input:
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perimeter_generator_params,
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surface,
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nullptr,
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// cache:
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lower_layer_polygons_cache,
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// output:
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loops, gap_fill, fill_expolygons);
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THEN("expected number of collections") {
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REQUIRE(loops.entities.size() == data.expolygons.size());
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}
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loops = loops.flatten();
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THEN("expected number of loops") {
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REQUIRE(loops.entities.size() == data.total);
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}
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THEN("expected number of external loops") {
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size_t num_external = std::count_if(loops.entities.begin(), loops.entities.end(),
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[](const ExtrusionEntity *ee){ return ee->role() == erExternalPerimeter; });
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REQUIRE(num_external == data.external);
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}
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THEN("expected external order") {
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std::vector<bool> ext_order;
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for (auto *ee : loops.entities)
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ext_order.emplace_back(ee->role() == erExternalPerimeter);
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REQUIRE(ext_order == data.ext_order);
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}
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THEN("expected number of internal contour loops") {
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size_t cinternal = std::count_if(loops.entities.begin(), loops.entities.end(),
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[](const ExtrusionEntity *ee){ return dynamic_cast<const ExtrusionLoop*>(ee)->loop_role() == elrContourInternalPerimeter; });
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REQUIRE(cinternal == data.cinternal);
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}
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THEN("expected number of ccw loops") {
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size_t ccw = std::count_if(loops.entities.begin(), loops.entities.end(),
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[](const ExtrusionEntity *ee){ return dynamic_cast<const ExtrusionLoop*>(ee)->polygon().is_counter_clockwise(); });
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REQUIRE(ccw == data.ccw);
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}
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THEN("expected ccw/cw order") {
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std::vector<bool> ccw_order;
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for (auto *ee : loops.entities)
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ccw_order.emplace_back(dynamic_cast<const ExtrusionLoop*>(ee)->polygon().is_counter_clockwise());
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REQUIRE(ccw_order == data.ccw_order);
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}
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THEN("expected nesting order") {
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for (const std::vector<int> &nesting : data.nesting) {
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for (size_t i = 1; i < nesting.size(); ++ i)
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REQUIRE(dynamic_cast<const ExtrusionLoop*>(loops.entities[nesting[i - 1]])->polygon().contains(loops.entities[nesting[i]]->first_point()));
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}
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}
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};
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WHEN("Rectangle") {
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config.perimeters.value = 3;
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TestData data;
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data.expolygons = {
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ExPolygon{ Polygon::new_scale({ {0,0}, {100,0}, {100,100}, {0,100} }) }
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};
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data.total = 3;
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data.external = 1;
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data.ext_order = { false, false, true };
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data.cinternal = 1;
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data.ccw = 3;
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data.ccw_order = { true, true, true };
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data.nesting = { { 2, 1, 0 } };
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test(data);
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}
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WHEN("Rectangle with hole") {
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config.perimeters.value = 3;
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TestData data;
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data.expolygons = {
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ExPolygon{ Polygon::new_scale({ {0,0}, {100,0}, {100,100}, {0,100} }),
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Polygon::new_scale({ {40,40}, {40,60}, {60,60}, {60,40} }) }
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};
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data.total = 6;
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data.external = 2;
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data.ext_order = { false, false, true, false, false, true };
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data.cinternal = 1;
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data.ccw = 3;
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data.ccw_order = { false, false, false, true, true, true };
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data.nesting = { { 5, 4, 3, 0, 1, 2 } };
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test(data);
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}
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WHEN("Nested rectangles with holes") {
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config.perimeters.value = 3;
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TestData data;
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data.expolygons = {
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ExPolygon{ Polygon::new_scale({ {0,0}, {200,0}, {200,200}, {0,200} }),
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Polygon::new_scale({ {20,20}, {20,180}, {180,180}, {180,20} }) },
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ExPolygon{ Polygon::new_scale({ {50,50}, {150,50}, {150,150}, {50,150} }),
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Polygon::new_scale({ {80,80}, {80,120}, {120,120}, {120,80} }) }
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};
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data.total = 4*3;
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data.external = 4;
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data.ext_order = { false, false, true, false, false, true, false, false, true, false, false, true };
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data.cinternal = 2;
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data.ccw = 2*3;
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data.ccw_order = { false, false, false, true, true, true, false, false, false, true, true, true };
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test(data);
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}
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WHEN("Rectangle with multiple holes") {
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config.perimeters.value = 2;
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TestData data;
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ExPolygon expoly{ Polygon::new_scale({ {0,0}, {50,0}, {50,50}, {0,50} }) };
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expoly.holes.emplace_back(Polygon::new_scale({ {7.5,7.5}, {7.5,12.5}, {12.5,12.5}, {12.5,7.5} }));
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expoly.holes.emplace_back(Polygon::new_scale({ {7.5,17.5}, {7.5,22.5}, {12.5,22.5}, {12.5,17.5} }));
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expoly.holes.emplace_back(Polygon::new_scale({ {7.5,27.5}, {7.5,32.5}, {12.5,32.5}, {12.5,27.5} }));
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expoly.holes.emplace_back(Polygon::new_scale({ {7.5,37.5}, {7.5,42.5}, {12.5,42.5}, {12.5,37.5} }));
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expoly.holes.emplace_back(Polygon::new_scale({ {17.5,7.5}, {17.5,12.5}, {22.5,12.5}, {22.5,7.5} }));
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data.expolygons = { expoly };
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data.total = 12;
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data.external = 6;
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data.ext_order = { false, true, false, true, false, true, false, true, false, true, false, true };
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data.cinternal = 1;
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data.ccw = 2;
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data.ccw_order = { false, false, false, false, false, false, false, false, false, false, true, true };
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data.nesting = { {0,1},{2,3},{4,5},{6,7},{8,9} };
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test(data);
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};
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}
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SCENARIO("Perimeters", "[Perimeters]")
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{
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auto config = Slic3r::DynamicPrintConfig::full_print_config_with({
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{ "skirts", 0 },
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{ "fill_density", 0 },
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{ "perimeters", 3 },
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{ "top_solid_layers", 0 },
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{ "bottom_solid_layers", 0 },
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// to prevent speeds from being altered
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{ "cooling", "0" },
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// to prevent speeds from being altered
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{ "first_layer_speed", "100%" }
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});
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WHEN("Bridging perimeters disabled") {
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std::string gcode = Slic3r::Test::slice({ Slic3r::Test::TestMesh::overhang }, config);
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THEN("all perimeters extruded ccw") {
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GCodeReader parser;
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bool has_cw_loops = false;
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Polygon current_loop;
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parser.parse_buffer(gcode, [&has_cw_loops, ¤t_loop](Slic3r::GCodeReader &self, const Slic3r::GCodeReader::GCodeLine &line)
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{
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if (line.extruding(self) && line.dist_XY(self) > 0) {
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if (current_loop.empty())
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current_loop.points.emplace_back(self.xy_scaled());
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current_loop.points.emplace_back(line.new_XY_scaled(self));
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} else if (! line.cmd_is("M73")) {
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// skips remaining time lines (M73)
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if (! current_loop.empty() && current_loop.is_clockwise())
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has_cw_loops = true;
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current_loop.clear();
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}
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});
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REQUIRE(! has_cw_loops);
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}
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}
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auto test = [&config](Test::TestMesh model) {
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// we test two copies to make sure ExtrusionLoop objects are not modified in-place (the second object would not detect cw loops and thus would calculate wrong)
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std::string gcode = Slic3r::Test::slice({ model, model }, config);
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GCodeReader parser;
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bool has_cw_loops = false;
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bool has_outwards_move = false;
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bool starts_on_convex_point = false;
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// print_z => count of external loops
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std::map<coord_t, int> external_loops;
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Polygon current_loop;
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const double external_perimeter_speed = config.get_abs_value("external_perimeter_speed") * 60.;
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parser.parse_buffer(gcode, [&has_cw_loops, &has_outwards_move, &starts_on_convex_point, &external_loops, ¤t_loop, external_perimeter_speed, model]
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(Slic3r::GCodeReader &self, const Slic3r::GCodeReader::GCodeLine &line)
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{
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if (line.extruding(self) && line.dist_XY(self) > 0) {
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if (current_loop.empty())
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current_loop.points.emplace_back(self.xy_scaled());
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current_loop.points.emplace_back(line.new_XY_scaled(self));
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} else if (! line.cmd_is("M73")) {
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// skips remaining time lines (M73)
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if (! current_loop.empty()) {
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if (current_loop.is_clockwise())
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has_cw_loops = true;
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if (is_approx<double>(self.f(), external_perimeter_speed)) {
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// reset counter for second object
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coord_t z = scaled<coord_t>(self.z());
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auto it = external_loops.find(z);
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if (it == external_loops.end())
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it = external_loops.insert(std::make_pair(z, 0)).first;
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else if (it->second == 2)
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it->second = 0;
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++ it->second;
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bool is_contour = it->second == 2;
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bool is_hole = it->second == 1;
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// Testing whether the move point after loop ends up inside the extruded loop.
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bool loop_contains_point = current_loop.contains(line.new_XY_scaled(self));
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if (// contour should include destination
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(! loop_contains_point && is_contour) ||
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// hole should not
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(loop_contains_point && is_hole))
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has_outwards_move = true;
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if (model == Test::TestMesh::cube_with_concave_hole) {
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// check that loop starts at a concave vertex
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double cross = cross2((current_loop.points.front() - current_loop.points[current_loop.points.size() - 2]).cast<double>(), (current_loop.points[1] - current_loop.points.front()).cast<double>());
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bool convex = cross > 0.;
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if ((convex && is_contour) || (! convex && is_hole))
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starts_on_convex_point = true;
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}
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}
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current_loop.clear();
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}
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}
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});
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THEN("all perimeters extruded ccw") {
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REQUIRE(! has_cw_loops);
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}
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// FIXME Lukas H.: Arachne is printing external loops before hole loops in this test case.
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if (config.opt_enum<PerimeterGeneratorType>("perimeter_generator") == Slic3r::PerimeterGeneratorType::Arachne) {
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THEN("move outwards after completing external loop") {
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// REQUIRE(! has_outwards_move);
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}
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// FIXME Lukas H.: Disable this test for Arachne because it is failing and needs more investigation.
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THEN("loops start on concave point if any") {
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// REQUIRE(! starts_on_convex_point);
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}
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} else {
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THEN("move inwards after completing external loop") {
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REQUIRE(! has_outwards_move);
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}
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THEN("loops start on concave point if any") {
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REQUIRE(! starts_on_convex_point);
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}
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}
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};
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// Reusing the config above.
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config.set_deserialize_strict({
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{ "external_perimeter_speed", 68 }
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});
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GIVEN("Cube with hole") { test(Test::TestMesh::cube_with_hole); }
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GIVEN("Cube with concave hole") { test(Test::TestMesh::cube_with_concave_hole); }
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WHEN("Bridging perimeters enabled") {
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// Reusing the config above.
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config.set_deserialize_strict({
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{ "perimeters", 1 },
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{ "perimeter_speed", 77 },
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{ "external_perimeter_speed", 66 },
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{ "enable_dynamic_overhang_speeds", false },
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{ "bridge_speed", 99 },
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{ "cooling", "1" },
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{ "fan_below_layer_time", "0" },
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{ "slowdown_below_layer_time", "0" },
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{ "bridge_fan_speed", "100" },
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// arbitrary value
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{ "bridge_flow_ratio", 33 },
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{ "overhangs", true }
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});
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std::string gcode = Slic3r::Test::slice({ mesh(Slic3r::Test::TestMesh::overhang) }, config);
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THEN("Bridging is applied to bridging perimeters") {
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GCodeReader parser;
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// print Z => speeds
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std::map<coord_t, std::set<double>> layer_speeds;
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int fan_speed = 0;
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const double perimeter_speed = config.opt_float("perimeter_speed") * 60.;
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const double external_perimeter_speed = config.get_abs_value("external_perimeter_speed") * 60.;
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const double bridge_speed = config.opt_float("bridge_speed") * 60.;
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const double nozzle_dmr = config.opt<ConfigOptionFloats>("nozzle_diameter")->get_at(0);
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const double filament_dmr = config.opt<ConfigOptionFloats>("filament_diameter")->get_at(0);
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const double bridge_mm_per_mm = sqr(nozzle_dmr / filament_dmr) * config.opt_float("bridge_flow_ratio");
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parser.parse_buffer(gcode, [&layer_speeds, &fan_speed, perimeter_speed, external_perimeter_speed, bridge_speed, nozzle_dmr, filament_dmr, bridge_mm_per_mm]
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(Slic3r::GCodeReader &self, const Slic3r::GCodeReader::GCodeLine &line)
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{
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if (line.cmd_is("M107"))
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fan_speed = 0;
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else if (line.cmd_is("M106"))
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line.has_value('S', fan_speed);
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else if (line.extruding(self) && line.dist_XY(self) > 0) {
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double feedrate = line.new_F(self);
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REQUIRE((is_approx(feedrate, perimeter_speed) || is_approx(feedrate, external_perimeter_speed) || is_approx(feedrate, bridge_speed)));
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layer_speeds[self.z()].insert(feedrate);
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bool bridging = is_approx(feedrate, bridge_speed);
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double mm_per_mm = line.dist_E(self) / line.dist_XY(self);
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// Fan enabled at full speed when bridging, disabled when not bridging.
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REQUIRE((! bridging || fan_speed == 255));
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REQUIRE((bridging || fan_speed == 0));
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// When bridging, bridge flow is applied.
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REQUIRE((! bridging || std::abs(mm_per_mm - bridge_mm_per_mm) <= 0.01));
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}
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});
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// only overhang layer has more than one speed
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size_t num_overhangs = std::count_if(layer_speeds.begin(), layer_speeds.end(), [](const std::pair<double, std::set<double>> &v){ return v.second.size() > 1; });
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REQUIRE(num_overhangs == 1);
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}
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}
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GIVEN("iPad stand") {
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WHEN("Extra perimeters enabled") {
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auto config = Slic3r::DynamicPrintConfig::full_print_config_with({
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{ "skirts", 0 },
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{ "perimeters", 3 },
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{ "layer_height", 0.4 },
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{ "first_layer_height", 0.35 },
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{ "extra_perimeters", 1 },
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// to prevent speeds from being altered
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{ "cooling", "0" },
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// to prevent speeds from being altered
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{ "first_layer_speed", "100%" },
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{ "perimeter_speed", 99 },
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{ "external_perimeter_speed", 99 },
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{ "small_perimeter_speed", 99 },
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{ "thin_walls", 0 },
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});
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std::string gcode = Slic3r::Test::slice({ Slic3r::Test::TestMesh::ipadstand }, config);
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// z => number of loops
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std::map<coord_t, int> perimeters;
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bool in_loop = false;
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const double perimeter_speed = config.opt_float("perimeter_speed") * 60.;
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GCodeReader parser;
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parser.parse_buffer(gcode, [&perimeters, &in_loop, perimeter_speed](Slic3r::GCodeReader &self, const Slic3r::GCodeReader::GCodeLine &line)
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{
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if (line.extruding(self) && line.dist_XY(self) > 0 && is_approx<double>(line.new_F(self), perimeter_speed)) {
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if (! in_loop) {
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coord_t z = scaled<coord_t>(self.z());
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auto it = perimeters.find(z);
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if (it == perimeters.end())
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it = perimeters.insert(std::make_pair(z, 0)).first;
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++ it->second;
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}
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in_loop = true;
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} else if (! line.cmd_is("M73")) {
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// skips remaining time lines (M73)
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in_loop = false;
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}
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});
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THEN("no superfluous extra perimeters") {
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const int num_perimeters = config.opt_int("perimeters");
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size_t extra_perimeters = std::count_if(perimeters.begin(), perimeters.end(), [num_perimeters](const std::pair<const coord_t, int> &v){ return (v.second % num_perimeters) > 0; });
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REQUIRE(extra_perimeters == 0);
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}
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}
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}
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}
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SCENARIO("Some weird coverage test", "[Perimeters]")
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{
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auto config = Slic3r::DynamicPrintConfig::full_print_config_with({
|
|
{ "nozzle_diameter", "0.4" },
|
|
{ "perimeters", 2 },
|
|
{ "perimeter_extrusion_width", 0.4 },
|
|
{ "external_perimeter_extrusion_width", 0.4 },
|
|
{ "infill_extrusion_width", 0.53 },
|
|
{ "solid_infill_extrusion_width", 0.53 }
|
|
});
|
|
|
|
// we just need a pre-filled Print object
|
|
Print print;
|
|
Model model;
|
|
Slic3r::Test::init_print({ Test::TestMesh::cube_20x20x20 }, print, model, config);
|
|
|
|
// override a layer's slices
|
|
ExPolygon expolygon;
|
|
expolygon.contour = {
|
|
{-71974463,-139999376},{-71731792,-139987456},{-71706544,-139985616},{-71682119,-139982639},{-71441248,-139946912},{-71417487,-139942895},{-71379384,-139933984},{-71141800,-139874480},
|
|
{-71105247,-139862895},{-70873544,-139779984},{-70838592,-139765856},{-70614943,-139660064},{-70581783,-139643567},{-70368368,-139515680},{-70323751,-139487872},{-70122160,-139338352},
|
|
{-70082399,-139306639},{-69894800,-139136624},{-69878679,-139121327},{-69707992,-138933008},{-69668575,-138887343},{-69518775,-138685359},{-69484336,-138631632},{-69356423,-138418207},
|
|
{-69250040,-138193296},{-69220920,-138128976},{-69137992,-137897168},{-69126095,-137860255},{-69066568,-137622608},{-69057104,-137582511},{-69053079,-137558751},{-69017352,-137317872},
|
|
{-69014392,-137293456},{-69012543,-137268207},{-68999369,-137000000},{-63999999,-137000000},{-63705947,-136985551},{-63654984,-136977984},{-63414731,-136942351},{-63364756,-136929840},
|
|
{-63129151,-136870815},{-62851950,-136771631},{-62585807,-136645743},{-62377483,-136520895},{-62333291,-136494415},{-62291908,-136463728},{-62096819,-136319023},{-62058644,-136284432},
|
|
{-61878676,-136121328},{-61680968,-135903184},{-61650275,-135861807},{-61505591,-135666719},{-61354239,-135414191},{-61332211,-135367615},{-61228359,-135148063},{-61129179,-134870847},
|
|
{-61057639,-134585262},{-61014451,-134294047},{-61000000,-134000000},{-61000000,-107999999},{-61014451,-107705944},{-61057639,-107414736},{-61129179,-107129152},{-61228359,-106851953},
|
|
{-61354239,-106585808},{-61505591,-106333288},{-61680967,-106096816},{-61878675,-105878680},{-62096820,-105680967},{-62138204,-105650279},{-62333292,-105505591},{-62585808,-105354239},
|
|
{-62632384,-105332207},{-62851951,-105228360},{-62900463,-105211008},{-63129152,-105129183},{-63414731,-105057640},{-63705947,-105014448},{-63999999,-105000000},{-68999369,-105000000},
|
|
{-69012543,-104731792},{-69014392,-104706544},{-69017352,-104682119},{-69053079,-104441248},{-69057104,-104417487},{-69066008,-104379383},{-69125528,-104141799},{-69137111,-104105248},
|
|
{-69220007,-103873544},{-69234136,-103838591},{-69339920,-103614943},{-69356415,-103581784},{-69484328,-103368367},{-69512143,-103323752},{-69661647,-103122160},{-69693352,-103082399},
|
|
{-69863383,-102894800},{-69878680,-102878679},{-70066999,-102707992},{-70112656,-102668576},{-70314648,-102518775},{-70368367,-102484336},{-70581783,-102356424},{-70806711,-102250040},
|
|
{-70871040,-102220919},{-71102823,-102137992},{-71139752,-102126095},{-71377383,-102066568},{-71417487,-102057104},{-71441248,-102053079},{-71682119,-102017352},{-71706535,-102014392},
|
|
{-71731784,-102012543},{-71974456,-102000624},{-71999999,-102000000},{-104000000,-102000000},{-104025536,-102000624},{-104268207,-102012543},{-104293455,-102014392},
|
|
{-104317880,-102017352},{-104558751,-102053079},{-104582512,-102057104},{-104620616,-102066008},{-104858200,-102125528},{-104894751,-102137111},{-105126455,-102220007},
|
|
{-105161408,-102234136},{-105385056,-102339920},{-105418215,-102356415},{-105631632,-102484328},{-105676247,-102512143},{-105877839,-102661647},{-105917600,-102693352},
|
|
{-106105199,-102863383},{-106121320,-102878680},{-106292007,-103066999},{-106331424,-103112656},{-106481224,-103314648},{-106515663,-103368367},{-106643575,-103581783},
|
|
{-106749959,-103806711},{-106779080,-103871040},{-106862007,-104102823},{-106873904,-104139752},{-106933431,-104377383},{-106942896,-104417487},{-106946920,-104441248},
|
|
{-106982648,-104682119},{-106985607,-104706535},{-106987456,-104731784},{-107000630,-105000000},{-112000000,-105000000},{-112294056,-105014448},{-112585264,-105057640},
|
|
{-112870848,-105129184},{-112919359,-105146535},{-113148048,-105228360},{-113194624,-105250392},{-113414191,-105354239},{-113666711,-105505591},{-113708095,-105536279},
|
|
{-113903183,-105680967},{-114121320,-105878679},{-114319032,-106096816},{-114349720,-106138200},{-114494408,-106333288},{-114645760,-106585808},{-114667792,-106632384},
|
|
{-114771640,-106851952},{-114788991,-106900463},{-114870815,-107129151},{-114942359,-107414735},{-114985551,-107705943},{-115000000,-107999999},{-115000000,-134000000},
|
|
{-114985551,-134294048},{-114942359,-134585263},{-114870816,-134870847},{-114853464,-134919359},{-114771639,-135148064},{-114645759,-135414192},{-114494407,-135666720},
|
|
{-114319031,-135903184},{-114121320,-136121327},{-114083144,-136155919},{-113903184,-136319023},{-113861799,-136349712},{-113666711,-136494416},{-113458383,-136619264},
|
|
{-113414192,-136645743},{-113148049,-136771631},{-112870848,-136870815},{-112820872,-136883327},{-112585264,-136942351},{-112534303,-136949920},{-112294056,-136985551},
|
|
{-112000000,-137000000},{-107000630,-137000000},{-106987456,-137268207},{-106985608,-137293440},{-106982647,-137317872},{-106946920,-137558751},{-106942896,-137582511},
|
|
{-106933991,-137620624},{-106874471,-137858208},{-106862888,-137894751},{-106779992,-138126463},{-106765863,-138161424},{-106660080,-138385055},{-106643584,-138418223},
|
|
{-106515671,-138631648},{-106487855,-138676256},{-106338352,-138877839},{-106306647,-138917600},{-106136616,-139105199},{-106121320,-139121328},{-105933000,-139291999},
|
|
{-105887344,-139331407},{-105685351,-139481232},{-105631632,-139515663},{-105418216,-139643567},{-105193288,-139749951},{-105128959,-139779072},{-104897175,-139862016},
|
|
{-104860247,-139873904},{-104622616,-139933423},{-104582511,-139942896},{-104558751,-139946912},{-104317880,-139982656},{-104293463,-139985616},{-104268216,-139987456},
|
|
{-104025544,-139999376},{-104000000,-140000000},{-71999999,-140000000}
|
|
};
|
|
expolygon.holes = {
|
|
{{-105000000,-138000000},{-105000000,-104000000},{-71000000,-104000000},{-71000000,-138000000}},
|
|
{{-69000000,-132000000},{-69000000,-110000000},{-64991180,-110000000},{-64991180,-132000000}},
|
|
{{-111008824,-132000000},{-111008824,-110000000},{-107000000,-110000000},{-107000000,-132000000}}
|
|
};
|
|
PrintObject *object = print.get_object(0);
|
|
object->slice();
|
|
Layer *layer = object->get_layer(1);
|
|
LayerRegion *layerm = layer->get_region(0);
|
|
layerm->m_slices.clear();
|
|
layerm->m_slices.append({ expolygon }, stInternal);
|
|
layer->lslices = { expolygon };
|
|
layer->lslices_ex = { { get_extents(expolygon) } };
|
|
|
|
// make perimeters
|
|
layer->make_perimeters();
|
|
|
|
// compute the covered area
|
|
Flow pflow = layerm->flow(frPerimeter);
|
|
Flow iflow = layerm->flow(frInfill);
|
|
Polygons covered_by_perimeters;
|
|
Polygons covered_by_infill;
|
|
{
|
|
Polygons acc;
|
|
for (const ExtrusionEntity *ee : layerm->perimeters())
|
|
for (const ExtrusionEntity *ee : dynamic_cast<const ExtrusionEntityCollection*>(ee)->entities)
|
|
append(acc, offset(dynamic_cast<const ExtrusionLoop*>(ee)->polygon().split_at_first_point(), float(pflow.scaled_width() / 2.f + SCALED_EPSILON)));
|
|
covered_by_perimeters = union_(acc);
|
|
}
|
|
{
|
|
Polygons acc;
|
|
for (const ExPolygon &expolygon : layerm->fill_expolygons())
|
|
append(acc, to_polygons(expolygon));
|
|
for (const ExtrusionEntity *ee : layerm->thin_fills().entities)
|
|
append(acc, offset(dynamic_cast<const ExtrusionPath*>(ee)->polyline, float(iflow.scaled_width() / 2.f + SCALED_EPSILON)));
|
|
covered_by_infill = union_(acc);
|
|
}
|
|
|
|
// compute the non covered area
|
|
ExPolygons non_covered = diff_ex(to_polygons(layerm->slices().surfaces), union_(covered_by_perimeters, covered_by_infill));
|
|
|
|
/*
|
|
if (0) {
|
|
printf "max non covered = %f\n", List::Util::max(map unscale unscale $_->area, @$non_covered);
|
|
require "Slic3r/SVG.pm";
|
|
Slic3r::SVG::output(
|
|
"gaps.svg",
|
|
expolygons => [ map $_->expolygon, @{$layerm->slices} ],
|
|
red_expolygons => union_ex([ map @$_, (@$covered_by_perimeters, @$covered_by_infill) ]),
|
|
green_expolygons => union_ex($non_covered),
|
|
no_arrows => 1,
|
|
polylines => [
|
|
map $_->polygon->split_at_first_point, map @$_, @{$layerm->perimeters},
|
|
],
|
|
);
|
|
}
|
|
*/
|
|
THEN("no gap between perimeters and infill") {
|
|
size_t num_non_convered = std::count_if(non_covered.begin(), non_covered.end(),
|
|
[&iflow](const ExPolygon &ex){ return ex.area() > sqr(double(iflow.scaled_width())); });
|
|
REQUIRE(num_non_convered == 0);
|
|
}
|
|
}
|
|
|
|
SCENARIO("Perimeters3", "[Perimeters]")
|
|
{
|
|
auto config = Slic3r::DynamicPrintConfig::full_print_config_with({
|
|
{ "skirts", 0 },
|
|
{ "perimeters", 3 },
|
|
{ "layer_height", 0.4 },
|
|
{ "bridge_speed", 99 },
|
|
{ "enable_dynamic_overhang_speeds", false },
|
|
// to prevent bridging over sparse infill
|
|
{ "fill_density", 0 },
|
|
{ "overhangs", true },
|
|
// to prevent speeds from being altered
|
|
{ "cooling", "0" },
|
|
// to prevent speeds from being altered
|
|
{ "first_layer_speed", "100%" }
|
|
});
|
|
|
|
auto test = [&config](const Vec3d &scale) {
|
|
std::string gcode = Slic3r::Test::slice({ mesh(Slic3r::Test::TestMesh::V, Vec3d::Zero(), scale) }, config);
|
|
GCodeReader parser;
|
|
std::set<coord_t> z_with_bridges;
|
|
const double bridge_speed = config.opt_float("bridge_speed") * 60.;
|
|
parser.parse_buffer(gcode, [&z_with_bridges, bridge_speed](Slic3r::GCodeReader &self, const Slic3r::GCodeReader::GCodeLine &line)
|
|
{
|
|
if (line.extruding(self) && line.dist_XY(self) > 0 && is_approx<double>(line.new_F(self), bridge_speed))
|
|
z_with_bridges.insert(scaled<coord_t>(self.z()));
|
|
});
|
|
return z_with_bridges.size();
|
|
};
|
|
|
|
GIVEN("V shape, unscaled") {
|
|
int n = test(Vec3d(1., 1., 1.));
|
|
// except for the two internal solid layers above void
|
|
THEN("no overhangs printed with bridge speed") {
|
|
REQUIRE(n == 1);
|
|
}
|
|
}
|
|
GIVEN("V shape, scaled 3x in X") {
|
|
int n = test(Vec3d(3., 1., 1.));
|
|
// except for the two internal solid layers above void
|
|
THEN("overhangs printed with bridge speed") {
|
|
REQUIRE(n > 2);
|
|
}
|
|
}
|
|
}
|
|
|
|
SCENARIO("Perimeters4", "[Perimeters]")
|
|
{
|
|
auto config = Slic3r::DynamicPrintConfig::full_print_config_with({
|
|
{ "seam_position", "random" }
|
|
});
|
|
std::string gcode = Slic3r::Test::slice({ Slic3r::Test::TestMesh::cube_20x20x20 }, config);
|
|
THEN("successful generation of G-code with seam_position = random") {
|
|
REQUIRE(! gcode.empty());
|
|
}
|
|
}
|
|
|
|
SCENARIO("Seam alignment", "[Perimeters]")
|
|
{
|
|
auto test = [](Test::TestMesh model) {
|
|
auto config = Slic3r::DynamicPrintConfig::full_print_config_with({
|
|
{ "seam_position", "aligned" },
|
|
{ "skirts", 0 },
|
|
{ "perimeters", 1 },
|
|
{ "fill_density", 0 },
|
|
{ "top_solid_layers", 0 },
|
|
{ "bottom_solid_layers", 0 },
|
|
{ "retract_layer_change", "0" }
|
|
});
|
|
std::string gcode = Slic3r::Test::slice({ model }, config);
|
|
bool was_extruding = false;
|
|
Points seam_points;
|
|
GCodeReader parser;
|
|
parser.parse_buffer(gcode, [&was_extruding, &seam_points](Slic3r::GCodeReader &self, const Slic3r::GCodeReader::GCodeLine &line)
|
|
{
|
|
if (line.extruding(self)) {
|
|
if (! was_extruding)
|
|
seam_points.emplace_back(self.xy_scaled());
|
|
was_extruding = true;
|
|
} else if (! line.cmd_is("M73")) {
|
|
// skips remaining time lines (M73)
|
|
was_extruding = false;
|
|
}
|
|
});
|
|
THEN("seam is aligned") {
|
|
size_t num_not_aligned = 0;
|
|
for (size_t i = 1; i < seam_points.size(); ++ i) {
|
|
double d = (seam_points[i] - seam_points[i - 1]).cast<double>().norm();
|
|
// Seams shall be aligned up to 3mm.
|
|
if (d > scaled<double>(3.))
|
|
++ num_not_aligned;
|
|
}
|
|
REQUIRE(num_not_aligned == 0);
|
|
}
|
|
};
|
|
|
|
GIVEN("20mm cube") {
|
|
test(Slic3r::Test::TestMesh::cube_20x20x20);
|
|
}
|
|
GIVEN("small_dorito") {
|
|
test(Slic3r::Test::TestMesh::small_dorito);
|
|
}
|
|
}
|