Merge branch 'tm_hollowing_optimization_2'
This commit is contained in:
commit
dea3c2cea3
@ -14,6 +14,7 @@
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#include <openvdb/tools/VolumeToMesh.h>
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#include <openvdb/tools/Composite.h>
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#include <openvdb/tools/LevelSetRebuild.h>
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#include <openvdb/tools/FastSweeping.h>
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//#include "MTUtils.hpp"
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@ -42,16 +43,13 @@ public:
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: its{m}, voxel_scale{voxel_sc} {};
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};
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// TODO: Do I need to call initialize? Seems to work without it as well but the
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// docs say it should be called ones. It does a mutex lock-unlock sequence all
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// even if was called previously.
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openvdb::FloatGrid::Ptr mesh_to_grid(const indexed_triangle_set & mesh,
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const openvdb::math::Transform &tr,
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float voxel_scale,
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float exteriorBandWidth,
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float interiorBandWidth,
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int flags)
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float interiorBandWidth)
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{
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// Might not be needed but this is now proven to be working
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openvdb::initialize();
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std::vector<indexed_triangle_set> meshparts = its_split(mesh);
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@ -64,23 +62,35 @@ openvdb::FloatGrid::Ptr mesh_to_grid(const indexed_triangle_set & mesh,
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openvdb::FloatGrid::Ptr grid;
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for (auto &m : meshparts) {
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auto subgrid = openvdb::tools::meshToVolume<openvdb::FloatGrid>(
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TriangleMeshDataAdapter{m, voxel_scale}, tr, exteriorBandWidth,
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interiorBandWidth, flags);
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TriangleMeshDataAdapter{m, voxel_scale}, tr, 1.f, 1.f);
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if (grid && subgrid) openvdb::tools::csgUnion(*grid, *subgrid);
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else if (subgrid) grid = std::move(subgrid);
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}
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if (grid) {
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grid = openvdb::tools::levelSetRebuild(*grid, 0., exteriorBandWidth,
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interiorBandWidth);
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} else if(meshparts.empty()) {
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if (meshparts.size() > 1) {
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// This is needed to avoid various artefacts on multipart meshes.
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// TODO: replace with something faster
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grid = openvdb::tools::levelSetRebuild(*grid, 0., 1.f, 1.f);
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}
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if(meshparts.empty()) {
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// Splitting failed, fall back to hollow the original mesh
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grid = openvdb::tools::meshToVolume<openvdb::FloatGrid>(
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TriangleMeshDataAdapter{mesh}, tr, exteriorBandWidth,
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interiorBandWidth, flags);
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TriangleMeshDataAdapter{mesh}, tr, 1.f, 1.f);
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}
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constexpr int DilateIterations = 1;
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grid = openvdb::tools::dilateSdf(
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*grid, interiorBandWidth, openvdb::tools::NN_FACE_EDGE,
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DilateIterations,
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openvdb::tools::FastSweepingDomain::SWEEP_LESS_THAN_ISOVALUE);
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grid = openvdb::tools::dilateSdf(
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*grid, exteriorBandWidth, openvdb::tools::NN_FACE_EDGE,
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DilateIterations,
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openvdb::tools::FastSweepingDomain::SWEEP_GREATER_THAN_ISOVALUE);
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grid->insertMeta("voxel_scale", openvdb::FloatMetadata(voxel_scale));
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return grid;
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@ -133,4 +143,15 @@ openvdb::FloatGrid::Ptr redistance_grid(const openvdb::FloatGrid &grid,
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return new_grid;
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}
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openvdb::FloatGrid::Ptr redistance_grid(const openvdb::FloatGrid &grid,
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double iso)
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{
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auto new_grid = openvdb::tools::levelSetRebuild(grid, float(iso));
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// Copies voxel_scale metadata, if it exists.
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new_grid->insertMeta(*grid.deepCopyMeta());
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return new_grid;
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}
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} // namespace Slic3r
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@ -30,18 +30,20 @@ openvdb::FloatGrid::Ptr mesh_to_grid(const indexed_triangle_set & mesh,
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const openvdb::math::Transform &tr = {},
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float voxel_scale = 1.f,
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float exteriorBandWidth = 3.0f,
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float interiorBandWidth = 3.0f,
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int flags = 0);
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float interiorBandWidth = 3.0f);
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indexed_triangle_set grid_to_mesh(const openvdb::FloatGrid &grid,
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double isovalue = 0.0,
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double adaptivity = 0.0,
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bool relaxDisorientedTriangles = true);
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openvdb::FloatGrid::Ptr redistance_grid(const openvdb::FloatGrid &grid,
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double iso);
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openvdb::FloatGrid::Ptr redistance_grid(const openvdb::FloatGrid &grid,
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double iso,
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double ext_range = 3.,
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double int_range = 3.);
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double ext_range,
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double int_range);
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} // namespace Slic3r
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@ -12,6 +12,8 @@
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#include <boost/log/trivial.hpp>
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#include <openvdb/tools/FastSweeping.h>
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#include <libslic3r/MTUtils.hpp>
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#include <libslic3r/I18N.hpp>
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@ -27,12 +29,10 @@ struct Interior {
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openvdb::FloatGrid::Ptr gridptr;
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mutable std::optional<openvdb::FloatGrid::ConstAccessor> accessor;
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double closing_distance = 0.;
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double iso_surface = 0.;
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double thickness = 0.;
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double voxel_scale = 1.;
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double nb_in = 3.; // narrow band width inwards
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double nb_out = 3.; // narrow band width outwards
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// Full narrow band is the sum of the two above values.
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double full_narrowb = 2.;
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void reset_accessor() const // This resets the accessor and its cache
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// Not a thread safe call!
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@ -65,8 +65,9 @@ static InteriorPtr generate_interior_verbose(const TriangleMesh & mesh,
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{
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double offset = voxel_scale * min_thickness;
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double D = voxel_scale * closing_dist;
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float out_range = 0.1f * float(offset);
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float in_range = 1.1f * float(offset + D);
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auto narrowb = 1.;
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float out_range = narrowb;
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if (ctl.stopcondition()) return {};
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else ctl.statuscb(0, L("Hollowing"));
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@ -84,8 +85,21 @@ static InteriorPtr generate_interior_verbose(const TriangleMesh & mesh,
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else ctl.statuscb(30, L("Hollowing"));
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double iso_surface = D;
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auto narrowb = double(in_range);
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gridptr = redistance_grid(*gridptr, -(offset + D), narrowb, narrowb);
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if (D > EPSILON) {
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in_range = narrowb;
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gridptr = redistance_grid(*gridptr, -(offset + D), narrowb, in_range);
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constexpr int DilateIterations = 1;
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gridptr = openvdb::tools::dilateSdf(
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*gridptr, std::ceil(iso_surface),
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openvdb::tools::NN_FACE_EDGE_VERTEX, DilateIterations,
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openvdb::tools::FastSweepingDomain::SWEEP_GREATER_THAN_ISOVALUE);
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out_range = iso_surface;
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} else {
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iso_surface = -offset;
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}
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if (ctl.stopcondition()) return {};
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else ctl.statuscb(70, L("Hollowing"));
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@ -99,11 +113,10 @@ static InteriorPtr generate_interior_verbose(const TriangleMesh & mesh,
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if (ctl.stopcondition()) return {};
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else ctl.statuscb(100, L("Hollowing"));
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interior->closing_distance = D;
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interior->iso_surface = iso_surface;
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interior->thickness = offset;
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interior->voxel_scale = voxel_scale;
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interior->nb_in = narrowb;
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interior->nb_out = narrowb;
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interior->full_narrowb = out_range + in_range;
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return interior;
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}
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@ -112,8 +125,9 @@ InteriorPtr generate_interior(const TriangleMesh & mesh,
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const HollowingConfig &hc,
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const JobController & ctl)
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{
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static const double MIN_OVERSAMPL = 3.5;
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static const double MAX_OVERSAMPL = 8.;
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static constexpr double MIN_SAMPLES_IN_WALL = 3.5;
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static constexpr double MAX_OVERSAMPL = 8.;
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static constexpr double UNIT_VOLUME = 500000; // empiric
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// I can't figure out how to increase the grid resolution through openvdb
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// API so the model will be scaled up before conversion and the result
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@ -121,11 +135,24 @@ InteriorPtr generate_interior(const TriangleMesh & mesh,
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// scales the whole geometry down, and doesn't increase the number of
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// voxels.
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//
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// max 8x upscale, min is native voxel size
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auto voxel_scale = MIN_OVERSAMPL + (MAX_OVERSAMPL - MIN_OVERSAMPL) * hc.quality;
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// First an allowed range for voxel scale is determined from an initial
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// range of <MIN_SAMPLES_IN_WALL, MAX_OVERSAMPL>. The final voxel scale is
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// then chosen from this range using the 'quality:<0, 1>' parameter.
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// The minimum can be lowered if the wall thickness is great enough and
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// the maximum is lowered if the model volume very big.
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double mesh_vol = its_volume(mesh.its);
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double sc_divider = std::max(1.0, (mesh_vol / UNIT_VOLUME));
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double min_oversampl = std::max(MIN_SAMPLES_IN_WALL / hc.min_thickness, 1.);
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double max_oversampl_scaled = std::max(min_oversampl, MAX_OVERSAMPL / sc_divider);
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auto voxel_scale = min_oversampl + (max_oversampl_scaled - min_oversampl) * hc.quality;
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InteriorPtr interior =
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generate_interior_verbose(mesh, ctl, hc.min_thickness, voxel_scale,
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BOOST_LOG_TRIVIAL(debug) << "Hollowing: max oversampl will be: " << max_oversampl_scaled;
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BOOST_LOG_TRIVIAL(debug) << "Hollowing: voxel scale will be: " << voxel_scale;
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BOOST_LOG_TRIVIAL(debug) << "Hollowing: mesh volume is: " << mesh_vol;
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InteriorPtr interior = generate_interior_verbose(mesh, ctl,
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hc.min_thickness,
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voxel_scale,
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hc.closing_distance);
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if (interior && !interior->mesh.empty()) {
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@ -342,22 +369,18 @@ struct TriangleBubble { Vec3f center; double R; };
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static double get_distance(const TriangleBubble &b, const Interior &interior)
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{
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double R = b.R * interior.voxel_scale;
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double D = get_distance_raw(b.center, interior);
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double D = 2. * R;
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double Dst = get_distance_raw(b.center, interior);
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return (D > 0. && R >= interior.nb_out) ||
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(D < 0. && R >= interior.nb_in) ||
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((D - R) < 0. && 2 * R > interior.thickness) ?
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return D > interior.full_narrowb ||
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((Dst - R) < 0. && 2 * R > interior.thickness) ?
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std::nan("") :
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// FIXME: Adding interior.voxel_scale is a compromise supposed
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// to prevent the deletion of the triangles forming the interior
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// itself. This has a side effect that a small portion of the
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// bad triangles will still be visible.
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D - interior.closing_distance /*+ 2 * interior.voxel_scale*/;
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Dst - interior.iso_surface;
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}
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double get_distance(const Vec3f &p, const Interior &interior)
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{
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double d = get_distance_raw(p, interior) - interior.closing_distance;
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double d = get_distance_raw(p, interior) - interior.iso_surface;
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return d / interior.voxel_scale;
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}
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@ -494,7 +517,7 @@ void remove_inside_triangles(TriangleMesh &mesh, const Interior &interior,
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if (f.parent != NEW_FACE) // Top parent needs to be removed as well
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mesh_mods.to_remove[f.parent] = true;
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// If the outside part is between the interior end the exterior
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// If the outside part is between the interior and the exterior
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// (inside the wall being invisible), no further division is needed.
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if ((R + D) < interior.thickness)
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return false;
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@ -21,6 +21,8 @@
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#include "I18N.hpp"
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#include <libnest2d/tools/benchmark.h>
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//! macro used to mark string used at localization,
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//! return same string
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#define L(s) Slic3r::I18N::translate(s)
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@ -215,6 +217,22 @@ struct FaceHash {
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}
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};
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static void exclude_neighbors(const Vec3i &face,
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std::vector<bool> &mask,
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const indexed_triangle_set &its,
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const VertexFaceIndex &index,
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size_t recursions)
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{
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for (int i = 0; i < 3; ++i) {
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const auto &neighbors_range = index[face(i)];
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for (size_t fi_n : neighbors_range) {
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mask[fi_n] = true;
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if (recursions > 0)
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exclude_neighbors(its.indices[fi_n], mask, its, index, recursions - 1);
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}
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}
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}
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// Create exclude mask for triangle removal inside hollowed interiors.
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// This is necessary when the interior is already part of the mesh which was
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// drilled using CGAL mesh boolean operation. Excluded will be the triangles
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@ -231,15 +249,6 @@ static std::vector<bool> create_exclude_mask(
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VertexFaceIndex neighbor_index{its};
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auto exclude_neighbors = [&neighbor_index, &exclude_mask](const Vec3i &face)
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{
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for (int i = 0; i < 3; ++i) {
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const auto &neighbors_range = neighbor_index[face(i)];
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for (size_t fi_n : neighbors_range)
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exclude_mask[fi_n] = true;
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}
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};
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for (size_t fi = 0; fi < its.indices.size(); ++fi) {
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auto &face = its.indices[fi];
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@ -249,7 +258,7 @@ static std::vector<bool> create_exclude_mask(
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}
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if (exclude_mask[fi]) {
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exclude_neighbors(face);
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exclude_neighbors(face, exclude_mask, its, neighbor_index, 1);
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continue;
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}
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@ -294,7 +303,7 @@ static std::vector<bool> create_exclude_mask(
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if (D_hole < D_tol && std::abs(dot) < normal_angle_tol) {
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exclude_mask[fi] = true;
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exclude_neighbors(face);
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exclude_neighbors(face, exclude_mask, its, neighbor_index, 1);
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}
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}
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}
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@ -1116,7 +1125,14 @@ double SLAPrint::Steps::progressrange(SLAPrintStep step) const
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void SLAPrint::Steps::execute(SLAPrintObjectStep step, SLAPrintObject &obj)
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{
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switch(step) {
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case slaposHollowing: hollow_model(obj); break;
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case slaposHollowing: {
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Benchmark bench;
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bench.start();
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hollow_model(obj);
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bench.stop();
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std::cout << "Hollowing took " << bench.getElapsedSec() << " seconds" << std::endl;
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break;
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}
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case slaposDrillHoles: drill_holes(obj); break;
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case slaposObjectSlice: slice_model(obj); break;
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case slaposSupportPoints: support_points(obj); break;
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