griefith/test2
1
0
Fork 0
Code Issues Pull Requests Actions 1 Packages Projects Releases Wiki Activity
Files
151a53110c3fe030cda2ade964bb37c19a77e4f3
test2/source/blender/blenkernel/intern/volume_to_mesh.cc
Hans Goudey 10d175e223 Cleanup: Use consistent argument order for mesh creation functions 
The typical order is vertex, edge, face(polygon), corner(loop), but in
these three functions polys and loops were reversed. Also use more
typical "num" variable names rather than "len"
2023-04-19 15:52:56 -04:00

189 lines
6.5 KiB
C++
Raw Blame History

/* SPDX-License-Identifier: GPL-2.0-or-later */
#include <vector>
#include "BLI_math_vector_types.hh"
#include "BLI_span.hh"
#include "BLI_utildefines.h"
#include "DNA_mesh_types.h"
#include "DNA_meshdata_types.h"
#include "DNA_volume_types.h"
#include "BKE_mesh.hh"
#include "BKE_volume.h"
#ifdef WITH_OPENVDB
# include <openvdb/tools/GridTransformer.h>
# include <openvdb/tools/VolumeToMesh.h>
#endif
#include "BKE_volume_to_mesh.hh"
namespace blender::bke {
#ifdef WITH_OPENVDB
struct VolumeToMeshOp {
const openvdb::GridBase &base_grid;
const VolumeToMeshResolution resolution;
const float threshold;
const float adaptivity;
std::vector<openvdb::Vec3s> verts;
std::vector<openvdb::Vec3I> tris;
std::vector<openvdb::Vec4I> quads;
template<typename GridType> bool operator()()
{
if constexpr (std::is_scalar_v<typename GridType::ValueType>) {
this->generate_mesh_data<GridType>();
return true;
}
return false;
}
template<typename GridType> void generate_mesh_data()
{
const GridType &grid = static_cast<const GridType &>(base_grid);
if (this->resolution.mode == VOLUME_TO_MESH_RESOLUTION_MODE_GRID) {
this->grid_to_mesh(grid);
return;
}
const float resolution_factor = this->compute_resolution_factor(base_grid);
typename GridType::Ptr temp_grid = this->create_grid_with_changed_resolution(
grid, resolution_factor);
this->grid_to_mesh(*temp_grid);
}
template<typename GridType>
typename GridType::Ptr create_grid_with_changed_resolution(const GridType &old_grid,
const float resolution_factor)
{
BLI_assert(resolution_factor > 0.0f);
openvdb::Mat4R xform;
xform.setToScale(openvdb::Vec3d(resolution_factor));
openvdb::tools::GridTransformer transformer{xform};
typename GridType::Ptr new_grid = GridType::create();
transformer.transformGrid<openvdb::tools::BoxSampler>(old_grid, *new_grid);
new_grid->transform() = old_grid.transform();
new_grid->transform().preScale(1.0f / resolution_factor);
return new_grid;
}
float compute_resolution_factor(const openvdb::GridBase &grid) const
{
const openvdb::Vec3s voxel_size{grid.voxelSize()};
const float current_voxel_size = std::max({voxel_size[0], voxel_size[1], voxel_size[2]});
const float desired_voxel_size = this->compute_desired_voxel_size(grid);
return current_voxel_size / desired_voxel_size;
}
float compute_desired_voxel_size(const openvdb::GridBase &grid) const
{
if (this->resolution.mode == VOLUME_TO_MESH_RESOLUTION_MODE_VOXEL_SIZE) {
return this->resolution.settings.voxel_size;
}
const openvdb::CoordBBox coord_bbox = base_grid.evalActiveVoxelBoundingBox();
const openvdb::BBoxd bbox = grid.transform().indexToWorld(coord_bbox);
const float max_extent = bbox.extents()[bbox.maxExtent()];
const float voxel_size = max_extent / this->resolution.settings.voxel_amount;
return voxel_size;
}
template<typename GridType> void grid_to_mesh(const GridType &grid)
{
openvdb::tools::volumeToMesh(
grid, this->verts, this->tris, this->quads, this->threshold, this->adaptivity);
/* Better align generated mesh with volume (see #85312). */
openvdb::Vec3s offset = grid.voxelSize() / 2.0f;
for (openvdb::Vec3s &position : this->verts) {
position += offset;
}
}
};
void fill_mesh_from_openvdb_data(const Span<openvdb::Vec3s> vdb_verts,
const Span<openvdb::Vec3I> vdb_tris,
const Span<openvdb::Vec4I> vdb_quads,
const int vert_offset,
const int poly_offset,
const int loop_offset,
MutableSpan<float3> vert_positions,
MutableSpan<int> poly_offsets,
MutableSpan<int> corner_verts)
{
/* Write vertices. */
vert_positions.slice(vert_offset, vdb_verts.size()).copy_from(vdb_verts.cast<float3>());
/* Write triangles. */
for (const int i : vdb_tris.index_range()) {
poly_offsets[poly_offset + i] = loop_offset + 3 * i;
for (int j = 0; j < 3; j++) {
/* Reverse vertex order to get correct normals. */
corner_verts[loop_offset + 3 * i + j] = vert_offset + vdb_tris[i][2 - j];
}
}
/* Write quads. */
const int quad_offset = poly_offset + vdb_tris.size();
const int quad_loop_offset = loop_offset + vdb_tris.size() * 3;
for (const int i : vdb_quads.index_range()) {
poly_offsets[quad_offset + i] = quad_loop_offset + 4 * i;
for (int j = 0; j < 4; j++) {
/* Reverse vertex order to get correct normals. */
corner_verts[quad_loop_offset + 4 * i + j] = vert_offset + vdb_quads[i][3 - j];
}
}
}
bke::OpenVDBMeshData volume_to_mesh_data(const openvdb::GridBase &grid,
const VolumeToMeshResolution &resolution,
const float threshold,
const float adaptivity)
{
const VolumeGridType grid_type = BKE_volume_grid_type_openvdb(grid);
VolumeToMeshOp to_mesh_op{grid, resolution, threshold, adaptivity};
if (!BKE_volume_grid_type_operation(grid_type, to_mesh_op)) {
return {};
}
return {std::move(to_mesh_op.verts), std::move(to_mesh_op.tris), std::move(to_mesh_op.quads)};
}
Mesh *volume_to_mesh(const openvdb::GridBase &grid,
const VolumeToMeshResolution &resolution,
const float threshold,
const float adaptivity)
{
const bke::OpenVDBMeshData mesh_data = volume_to_mesh_data(
grid, resolution, threshold, adaptivity);
const int tot_loops = 3 * mesh_data.tris.size() + 4 * mesh_data.quads.size();
const int tot_polys = mesh_data.tris.size() + mesh_data.quads.size();
Mesh *mesh = BKE_mesh_new_nomain(mesh_data.verts.size(), 0, tot_polys, tot_loops);
fill_mesh_from_openvdb_data(mesh_data.verts,
mesh_data.tris,
mesh_data.quads,
0,
0,
0,
mesh->vert_positions_for_write(),
mesh->poly_offsets_for_write(),
mesh->corner_verts_for_write());
BKE_mesh_calc_edges(mesh, false, false);
BKE_mesh_smooth_flag_set(mesh, false);
return mesh;
}
#endif /* WITH_OPENVDB */
} // namespace blender::bke
Reference in New Issue View Git Blame Copy Permalink