godot_voxel/util/utility.h

#ifndef HEADER_VOXEL_UTILITY_H
#define HEADER_VOXEL_UTILITY_H

#include "../math/vector3i.h"
#include <core/pool_vector.h>
#include <core/ustring.h>
#include <core/vector.h>
#include <scene/resources/mesh.h>
#include <vector>

// Takes elements starting from a given position and moves them at the beginning,
// then shrink the array to fit them. Other elements are discarded.
template <typename T>
void shift_up(Vector<T> &v, int pos) {

	int j = 0;
	for (int i = pos; i < v.size(); ++i, ++j) {
		v.write[j] = v[i];
	}

	int remaining = v.size() - pos;
	v.resize(remaining);
}

template <typename T>
void shift_up(std::vector<T> &v, int pos) {

	int j = 0;
	for (int i = pos; i < v.size(); ++i, ++j) {
		v[j] = v[i];
	}

	int remaining = v.size() - pos;
	v.resize(remaining);
}

// Pops the last element of the vector and place it at the given position.
// (The element that was at this position is the one removed).
template <typename T>
void unordered_remove(Vector<T> &v, int pos) {
	int last = v.size() - 1;
	v.write[pos] = v[last];
	v.resize(last);
}

template <typename T>
void copy_to(PoolVector<T> &to, const Vector<T> &from) {

	to.resize(from.size());

	typename PoolVector<T>::Write w = to.write();

	for (unsigned int i = 0; i < from.size(); ++i) {
		w[i] = from[i];
	}
}

inline String ptr2s(const void *p) {
	return String::num_uint64((uint64_t)p, 16);
}

template <typename T>
void raw_copy_to(PoolVector<T> &to, const std::vector<T> &from) {
	to.resize(from.size());
	typename PoolVector<T>::Write w = to.write();
	memcpy(w.ptr(), from.data(), from.size() * sizeof(T));
}

// Trilinear interpolation between corner values of a cube.
// Cube points respect the same position as in octree_tables.h
template <typename T>
inline T interpolate(const T v0, const T v1, const T v2, const T v3, const T v4, const T v5, const T v6, const T v7, Vector3 position) {

	const float one_min_x = 1.f - position.x;
	const float one_min_y = 1.f - position.y;
	const float one_min_z = 1.f - position.z;
	const float one_min_x_one_min_y = one_min_x * one_min_y;
	const float x_one_min_y = position.x * one_min_y;

	T res = one_min_z * (v0 * one_min_x_one_min_y + v1 * x_one_min_y + v4 * one_min_x * position.y);
	res += position.z * (v3 * one_min_x_one_min_y + v2 * x_one_min_y + v7 * one_min_x * position.y);
	res += position.x * position.y * (v5 * one_min_z + v6 * position.z);

	return res;
}

inline float min(const float &a, const float &b) {
	return a < b ? a : b;
}

inline float max(const float &a, const float &b) {
	return a > b ? a : b;
}

inline bool is_mesh_empty(Ref<Mesh> mesh_ref) {
	if (mesh_ref.is_null())
		return true;
	const Mesh &mesh = **mesh_ref;
	if (mesh.get_surface_count() == 0)
		return true;
	if (mesh.surface_get_array_len(0) == 0)
		return true;
	return false;
}

#endif // HEADER_VOXEL_UTILITY_H
Moved loading and meshing to 2 threads, will need a few bugfixes 2018-09-24 16:54:07 -07:00			`#ifndef HEADER_VOXEL_UTILITY_H`
			`#define HEADER_VOXEL_UTILITY_H`

Reorganize all files and rename a few things 2019-04-28 09:58:29 -07:00			`#include "../math/vector3i.h"`
Fix dependency in utility.h, move MeshBuilder to its own file, re-use vertex arrays 2019-04-20 17:14:28 -07:00			`#include <core/pool_vector.h>`
Remove reference to dvector.h 2019-04-13 10:47:35 -07:00			`#include <core/ustring.h>`
			`#include <core/vector.h>`
Moved is_mesh_empty() to utility.h 2019-04-29 13:32:28 -07:00			`#include <scene/resources/mesh.h>`
Added marching cubes polygonization, almost works but sometimes holes appear 2019-04-20 13:21:45 -07:00			`#include <vector>`
Moved loading and meshing to 2 threads, will need a few bugfixes 2018-09-24 16:54:07 -07:00
			`// Takes elements starting from a given position and moves them at the beginning,`
			`// then shrink the array to fit them. Other elements are discarded.`
			`template <typename T>`
			`void shift_up(Vector<T> &v, int pos) {`

			`int j = 0;`
			`for (int i = pos; i < v.size(); ++i, ++j) {`
			`v.write[j] = v[i];`
			`}`

			`int remaining = v.size() - pos;`
			`v.resize(remaining);`
			`}`

Added VoxelLodTerrain, focused on LOD. No seam management, no editing yet. 2019-05-03 16:02:10 -07:00			`template <typename T>`
			`void shift_up(std::vector<T> &v, int pos) {`

			`int j = 0;`
			`for (int i = pos; i < v.size(); ++i, ++j) {`
			`v[j] = v[i];`
			`}`

			`int remaining = v.size() - pos;`
			`v.resize(remaining);`
			`}`

Moved loading and meshing to 2 threads, will need a few bugfixes 2018-09-24 16:54:07 -07:00			`// Pops the last element of the vector and place it at the given position.`
			`// (The element that was at this position is the one removed).`
			`template <typename T>`
			`void unordered_remove(Vector<T> &v, int pos) {`
			`int last = v.size() - 1;`
			`v.write[pos] = v[last];`
			`v.resize(last);`
			`}`

			`template <typename T>`
			`void copy_to(PoolVector<T> &to, const Vector<T> &from) {`

			`to.resize(from.size());`

			`typename PoolVector<T>::Write w = to.write();`

			`for (unsigned int i = 0; i < from.size(); ++i) {`
			`w[i] = from[i];`
			`}`
			`}`

Fix thread loops missing blocks 2018-09-26 16:31:09 -07:00			`inline String ptr2s(const void *p) {`
			`return String::num_uint64((uint64_t)p, 16);`
			`}`

Added marching cubes polygonization, almost works but sometimes holes appear 2019-04-20 13:21:45 -07:00			`template <typename T>`
			`void raw_copy_to(PoolVector<T> &to, const std::vector<T> &from) {`
			`to.resize(from.size());`
			`typename PoolVector<T>::Write w = to.write();`
			`memcpy(w.ptr(), from.data(), from.size() * sizeof(T));`
			`}`

A bit of reorganization and tweaks: - Moved HermiteValue in its own file - VoxelBuffer channels are now predefined - Create DualGridGenerator for easier passing of data - Chunk size is no longer hardcoded - Respect padding when polygonizing voxels - BUG: due to the above, the way we build the octree is now breaking the result as mentionned in the TODO 2019-04-21 11:31:35 -07:00			`// Trilinear interpolation between corner values of a cube.`
Reorganize all files and rename a few things 2019-04-28 09:58:29 -07:00			`// Cube points respect the same position as in octree_tables.h`
A bit of reorganization and tweaks: - Moved HermiteValue in its own file - VoxelBuffer channels are now predefined - Create DualGridGenerator for easier passing of data - Chunk size is no longer hardcoded - Respect padding when polygonizing voxels - BUG: due to the above, the way we build the octree is now breaking the result as mentionned in the TODO 2019-04-21 11:31:35 -07:00			`template <typename T>`
			`inline T interpolate(const T v0, const T v1, const T v2, const T v3, const T v4, const T v5, const T v6, const T v7, Vector3 position) {`

			`const float one_min_x = 1.f - position.x;`
			`const float one_min_y = 1.f - position.y;`
			`const float one_min_z = 1.f - position.z;`
			`const float one_min_x_one_min_y = one_min_x * one_min_y;`
			`const float x_one_min_y = position.x * one_min_y;`

			`T res = one_min_z * (v0 * one_min_x_one_min_y + v1 * x_one_min_y + v4 * one_min_x * position.y);`
			`res += position.z * (v3 * one_min_x_one_min_y + v2 * x_one_min_y + v7 * one_min_x * position.y);`
			`res += position.x * position.y * (v5 * one_min_z + v6 * position.z);`

			`return res;`
			`}`

Added VoxelIsoSurfaceTool 2019-04-22 12:15:46 -07:00			`inline float min(const float &a, const float &b) {`
			`return a < b ? a : b;`
			`}`

			`inline float max(const float &a, const float &b) {`
			`return a > b ? a : b;`
			`}`

Moved is_mesh_empty() to utility.h 2019-04-29 13:32:28 -07:00			`inline bool is_mesh_empty(Ref<Mesh> mesh_ref) {`
			`if (mesh_ref.is_null())`
			`return true;`
			`const Mesh &mesh = **mesh_ref;`
			`if (mesh.get_surface_count() == 0)`
			`return true;`
			`if (mesh.surface_get_array_len(0) == 0)`
			`return true;`
			`return false;`
			`}`

Moved loading and meshing to 2 threads, will need a few bugfixes 2018-09-24 16:54:07 -07:00			`#endif // HEADER_VOXEL_UTILITY_H`