mirror of
https://github.com/Relintai/godot_voxel.git
synced 2024-11-11 20:35:08 +01:00
345 lines
11 KiB
C++
345 lines
11 KiB
C++
#include "voxel_mesher.h"
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#include "voxel_library.h"
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#include "cube_tables.h"
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template <typename T>
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void copy_to(PoolVector<T> &to, const Vector<T> &from) {
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to.resize(from.size());
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typename PoolVector<T>::Write w = to.write();
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for (unsigned int i = 0; i < from.size(); ++i) {
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w[i] = from[i];
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}
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}
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VoxelMesher::VoxelMesher()
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: _baked_occlusion_darkness(0.75),
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_bake_occlusion(true) {}
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void VoxelMesher::set_library(Ref<VoxelLibrary> library) {
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_library = library;
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}
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void VoxelMesher::set_material(Ref<Material> material, unsigned int id) {
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ERR_FAIL_COND(id >= MAX_MATERIALS);
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_materials[id] = material;
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}
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Ref<Material> VoxelMesher::get_material(unsigned int id) const {
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ERR_FAIL_COND_V(id >= MAX_MATERIALS, Ref<Material>());
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return _materials[id];
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}
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void VoxelMesher::set_occlusion_darkness(float darkness) {
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_baked_occlusion_darkness = darkness;
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if (_baked_occlusion_darkness < 0.0)
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_baked_occlusion_darkness = 0.0;
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else if (_baked_occlusion_darkness >= 1.0)
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_baked_occlusion_darkness = 1.0;
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}
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void VoxelMesher::set_occlusion_enabled(bool enable) {
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_bake_occlusion = enable;
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}
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inline Color Color_greyscale(float c) {
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return Color(c, c, c);
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}
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inline bool is_face_visible(const VoxelLibrary &lib, const Voxel &vt, int other_voxel_id) {
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if (other_voxel_id == 0) // air
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return true;
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if (lib.has_voxel(other_voxel_id)) {
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const Voxel &other_vt = lib.get_voxel_const(other_voxel_id);
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return other_vt.is_transparent() && vt.get_id() != other_voxel_id;
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}
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return true;
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}
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inline bool is_transparent(const VoxelLibrary &lib, int voxel_id) {
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if (lib.has_voxel(voxel_id))
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return lib.get_voxel_const(voxel_id).is_transparent();
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return true;
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}
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Ref<ArrayMesh> VoxelMesher::build_ref(Ref<VoxelBuffer> buffer_ref, unsigned int channel, Ref<ArrayMesh> mesh) {
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ERR_FAIL_COND_V(buffer_ref.is_null(), Ref<ArrayMesh>());
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VoxelBuffer &buffer = **buffer_ref;
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mesh = build(buffer, channel, Vector3i(), buffer.get_size(), mesh);
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return mesh;
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}
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Ref<ArrayMesh> VoxelMesher::build(const VoxelBuffer &buffer, unsigned int channel, Vector3i min, Vector3i max, Ref<ArrayMesh> mesh) {
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ERR_FAIL_COND_V(_library.is_null(), Ref<ArrayMesh>());
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ERR_FAIL_COND_V(channel >= VoxelBuffer::MAX_CHANNELS, Ref<ArrayMesh>());
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const VoxelLibrary &library = **_library;
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for (unsigned int i = 0; i < MAX_MATERIALS; ++i) {
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Arrays &a = _arrays[i];
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a.positions.clear();
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a.normals.clear();
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a.uvs.clear();
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a.colors.clear();
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a.indices.clear();
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}
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float baked_occlusion_darkness;
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if (_bake_occlusion)
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baked_occlusion_darkness = _baked_occlusion_darkness / 3.0;
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// The technique is Culled faces.
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// Could be improved with greedy meshing: https://0fps.net/2012/06/30/meshing-in-a-minecraft-game/
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// However I don't feel it's worth it yet:
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// - Not so much gain for organic worlds with lots of texture variations
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// - Works well with cubes but not with any shape
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// - Slower
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// => Could be implemented in a separate class?
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VOXEL_PROFILE_BEGIN("mesher_face_extraction")
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// Data must be padded, hence the off-by-one
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Vector3i::sort_min_max(min, max);
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const Vector3i pad(1, 1, 1);
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min.clamp_to(pad, max);
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max.clamp_to(min, buffer.get_size() - pad);
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int index_offset = 0;
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// Iterate 3D padded data to extract voxel faces.
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// This is the most intensive job in this class, so all required data should be as fit as possible.
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for (unsigned int z = min.z; z < max.z; ++z) {
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for (unsigned int x = min.x; x < max.x; ++x) {
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for (unsigned int y = min.y; y < max.y; ++y) {
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// TODO In this intensive routine, there is a way to make voxel access fastest by getting a pointer to the channel,
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// and using offset lookup to get neighbors rather than going through get_voxel validations
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int voxel_id = buffer.get_voxel(x, y, z, 0);
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if (voxel_id != 0 && library.has_voxel(voxel_id)) {
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const Voxel &voxel = library.get_voxel_const(voxel_id);
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Arrays &arrays = _arrays[voxel.get_material_id()];
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// Hybrid approach: extract cube faces and decimate those that aren't visible,
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// and still allow voxels to have geometry that is not a cube
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// Sides
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for (unsigned int side = 0; side < Voxel::SIDE_COUNT; ++side) {
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const PoolVector<Vector3> &positions = voxel.get_model_side_positions(side);
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int vertex_count = positions.size();
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if (vertex_count != 0) {
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Vector3i normal = CubeTables::g_side_normals[side];
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unsigned nx = x + normal.x;
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unsigned ny = y + normal.y;
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unsigned nz = z + normal.z;
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int neighbor_voxel_id = buffer.get_voxel(nx, ny, nz, channel);
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// TODO Better face visibility test
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if (is_face_visible(library, voxel, neighbor_voxel_id)) {
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// The face is visible
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int shaded_corner[8] = { 0 };
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if (_bake_occlusion) {
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// Combinatory solution for https://0fps.net/2013/07/03/ambient-occlusion-for-minecraft-like-worlds/
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for (unsigned int j = 0; j < 4; ++j) {
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unsigned int edge = CubeTables::g_side_edges[side][j];
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Vector3i edge_normal = CubeTables::g_edge_inormals[edge];
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unsigned ex = x + edge_normal.x;
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unsigned ey = y + edge_normal.y;
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unsigned ez = z + edge_normal.z;
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if (!is_transparent(library, buffer.get_voxel(ex, ey, ez))) {
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shaded_corner[CubeTables::g_edge_corners[edge][0]] += 1;
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shaded_corner[CubeTables::g_edge_corners[edge][1]] += 1;
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}
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}
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for (unsigned int j = 0; j < 4; ++j) {
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unsigned int corner = CubeTables::g_side_corners[side][j];
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if (shaded_corner[corner] == 2) {
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shaded_corner[corner] = 3;
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} else {
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Vector3i corner_normal = CubeTables::g_corner_inormals[corner];
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unsigned int cx = x + corner_normal.x;
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unsigned int cy = y + corner_normal.y;
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unsigned int cz = z + corner_normal.z;
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if (!is_transparent(library, buffer.get_voxel(cx, cy, cz))) {
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shaded_corner[corner] += 1;
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}
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}
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}
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}
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PoolVector<Vector3>::Read rv = positions.read();
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PoolVector<Vector2>::Read rt = voxel.get_model_side_uv(side).read();
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Vector3 pos(x - 1, y - 1, z - 1);
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for (unsigned int i = 0; i < vertex_count; ++i) {
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Vector3 v = rv[i];
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if (_bake_occlusion) {
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// General purpose occlusion colouring.
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// TODO Optimize for cubes
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// TODO Fix occlusion inconsistency caused by triangles orientation
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float shade = 0;
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for (unsigned int j = 0; j < 4; ++j) {
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unsigned int corner = CubeTables::g_side_corners[side][j];
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if (shaded_corner[corner]) {
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float s = baked_occlusion_darkness * static_cast<float>(shaded_corner[corner]);
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float k = 1.0 - CubeTables::g_corner_position[corner].distance_to(v);
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if (k < 0.0)
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k = 0.0;
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s *= k;
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if (s > shade)
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shade = s;
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}
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}
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float gs = 1.0 - shade;
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arrays.colors.push_back(Color(gs, gs, gs));
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}
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// TODO Investigate wether those vectors can be replaced by a simpler, faster one for PODs
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// TODO Resize beforehands rather than push_back (even if the vector is preallocated)
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arrays.normals.push_back(Vector3(normal.x, normal.y, normal.z));
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arrays.uvs.push_back(rt[i]);
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arrays.positions.push_back(v + pos);
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}
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const PoolVector<int> &side_indices = voxel.get_model_side_indices(side);
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PoolVector<int>::Read ri = side_indices.read();
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unsigned int index_count = side_indices.size();
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for(unsigned int i = 0; i < index_count; ++i) {
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arrays.indices.push_back(index_offset + ri[i]);
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}
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index_offset += vertex_count;
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}
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}
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}
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// Inside
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if (voxel.get_model_positions().size() != 0) {
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const PoolVector<Vector3> &vertices = voxel.get_model_positions();
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int vertex_count = vertices.size();
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PoolVector<Vector3>::Read rv = vertices.read();
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PoolVector<Vector3>::Read rn = voxel.get_model_normals().read();
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PoolVector<Vector2>::Read rt = voxel.get_model_uv().read();
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Vector3 pos(x - 1, y - 1, z - 1);
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for (unsigned int i = 0; i < vertex_count; ++i) {
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arrays.normals.push_back(rn[i]);
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arrays.uvs.push_back(rt[i]);
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arrays.positions.push_back(rv[i] + pos);
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}
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if(_bake_occlusion) {
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// TODO handle ambient occlusion on inner parts
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arrays.colors.push_back(Color(1,1,1));
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}
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const PoolVector<int> &indices = voxel.get_model_indices();
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PoolVector<int>::Read ri = indices.read();
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unsigned int index_count = indices.size();
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for(unsigned int i = 0; i < index_count; ++i) {
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arrays.indices.push_back(index_offset + ri[i]);
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}
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index_offset += vertex_count;
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}
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}
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}
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}
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}
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VOXEL_PROFILE_END("mesher_face_extraction")
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// Commit mesh
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Ref<ArrayMesh> mesh_ref = mesh;
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if (mesh.is_null())
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mesh_ref = Ref<ArrayMesh>(memnew(ArrayMesh));
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VOXEL_PROFILE_BEGIN("mesher_add_surfaces")
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// print_line(String("Made mesh v: ") + String::num(_arrays[0].positions.size())
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// + String(", i: ") + String::num(_arrays[0].indices.size()));
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int surface = 0;
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for(int i = 0; i < MAX_MATERIALS; ++i) {
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const Arrays &arrays = _arrays[i];
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if(arrays.positions.size() != 0) {
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Array mesh_arrays;
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mesh_arrays.resize(Mesh::ARRAY_MAX);
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{
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PoolVector<Vector3> positions;
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PoolVector<Vector2> uvs;
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PoolVector<Vector3> normals;
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PoolVector<Color> colors;
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PoolVector<int> indices;
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copy_to(positions, arrays.positions);
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copy_to(uvs, arrays.uvs);
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copy_to(normals, arrays.normals);
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copy_to(colors, arrays.colors);
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copy_to(indices, arrays.indices);
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mesh_arrays[Mesh::ARRAY_VERTEX] = positions;
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mesh_arrays[Mesh::ARRAY_TEX_UV] = uvs;
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mesh_arrays[Mesh::ARRAY_NORMAL] = normals;
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mesh_arrays[Mesh::ARRAY_COLOR] = colors;
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mesh_arrays[Mesh::ARRAY_INDEX] = indices;
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}
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mesh_ref->add_surface_from_arrays(Mesh::PRIMITIVE_TRIANGLES, mesh_arrays);
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mesh_ref->surface_set_material(surface, _materials[i]);
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++surface;
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}
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}
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VOXEL_PROFILE_END("mesher_add_surfaces")
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return mesh_ref;
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}
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void VoxelMesher::_bind_methods() {
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ClassDB::bind_method(D_METHOD("set_material", "material", "id"), &VoxelMesher::set_material);
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ClassDB::bind_method(D_METHOD("get_material", "id"), &VoxelMesher::get_material);
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ClassDB::bind_method(D_METHOD("set_library", "voxel_library"), &VoxelMesher::set_library);
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ClassDB::bind_method(D_METHOD("get_library"), &VoxelMesher::get_library);
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ClassDB::bind_method(D_METHOD("set_occlusion_enabled", "enable"), &VoxelMesher::set_occlusion_enabled);
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ClassDB::bind_method(D_METHOD("get_occlusion_enabled"), &VoxelMesher::get_occlusion_enabled);
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ClassDB::bind_method(D_METHOD("set_occlusion_darkness", "value"), &VoxelMesher::set_occlusion_darkness);
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ClassDB::bind_method(D_METHOD("get_occlusion_darkness"), &VoxelMesher::get_occlusion_darkness);
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ClassDB::bind_method(D_METHOD("build", "voxel_buffer", "channel", "existing_mesh"), &VoxelMesher::build_ref);
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#ifdef VOXEL_PROFILING
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ClassDB::bind_method(D_METHOD("get_profiling_info"), &VoxelMesher::get_profiling_info);
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#endif
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}
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