godot_voxel/voxel.h

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#ifndef VOXEL_TYPE_H
#define VOXEL_TYPE_H
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#include <core/resource.h>
#include "cube_tables.h"
class VoxelLibrary;
// Definition of one type of voxel.
// A voxel can be a simple coloured cube, or a more complex model.
// Important: it is recommended that you create voxels from a library rather than using new().
class Voxel : public Resource {
GDCLASS(Voxel, Resource)
public:
enum ChannelMode {
// For mapping to a Voxel type
CHANNEL_TYPE = 0,
// Distance to surface for smooth voxels
CHANNEL_ISOLEVEL,
// Arbitrary data not used by the module
CHANNEL_DATA
};
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Voxel();
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// Properties
Ref<Voxel> set_voxel_name(String name);
_FORCE_INLINE_ String get_voxel_name() const { return _name; }
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Ref<Voxel> set_id(int id);
_FORCE_INLINE_ int get_id() const { return _id; }
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Ref<Voxel> set_color(Color color);
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_FORCE_INLINE_ Color get_color() const { return _color; }
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Ref<Voxel> set_material_id(unsigned int id);
_FORCE_INLINE_ unsigned int get_material_id() const { return _material_id; }
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Ref<Voxel> set_transparent(bool t = true);
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_FORCE_INLINE_ bool is_transparent() const { return _is_transparent; }
//-------------------------------------------
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// Built-in geometry generators
enum GeometryType {
GEOMETRY_NONE = 0,
GEOMETRY_CUBE = 1,
GEOMETRY_MAX
};
void set_geometry_type(GeometryType type);
GeometryType get_geometry_type() const;
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// Getters for native usage only
const PoolVector<Vector3> &get_model_positions() const { return _model_positions; }
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const PoolVector<Vector3> &get_model_normals() const { return _model_normals; }
const PoolVector<Vector2> &get_model_uv() const { return _model_uvs; }
const PoolVector<int> &get_model_indices() const { return _model_indices; }
const PoolVector<Vector3> &get_model_side_positions(unsigned int side) const { return _model_side_positions[side]; }
const PoolVector<Vector2> &get_model_side_uv(unsigned int side) const { return _model_side_uvs[side]; }
const PoolVector<int> &get_model_side_indices(unsigned int side) const { return _model_side_indices[side]; }
void set_library(Ref<VoxelLibrary> lib);
protected:
bool _set(const StringName &p_name, const Variant &p_value);
bool _get(const StringName &p_name, Variant &r_ret) const;
void _get_property_list(List<PropertyInfo> *p_list) const;
void set_cube_uv_side(int side, Vector2 tile_pos);
void update_cube_uv_sides();
VoxelLibrary *get_library() const;
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static void _bind_methods();
Ref<Voxel> set_cube_geometry(float sy = 1);
//Ref<Voxel> set_xquad_geometry(Vector2 atlas_pos);
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private:
ObjectID _library;
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// Identifiers
int _id;
String _name;
// Properties
int _material_id;
bool _is_transparent;
Color _color;
GeometryType _geometry_type;
float _cube_geometry_padding_y;
Vector2 _cube_tiles[Cube::SIDE_COUNT];
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// Model
PoolVector<Vector3> _model_positions;
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PoolVector<Vector3> _model_normals;
PoolVector<Vector2> _model_uvs;
PoolVector<int> _model_indices;
// Model sides:
// They are separated because this way we can occlude them easily.
// Due to these defining cube side triangles, normals are known already.
PoolVector<Vector3> _model_side_positions[Cube::SIDE_COUNT];
PoolVector<Vector2> _model_side_uvs[Cube::SIDE_COUNT];
PoolVector<int> _model_side_indices[Cube::SIDE_COUNT];
// TODO Child voxel types?
};
VARIANT_ENUM_CAST(Voxel::ChannelMode)
VARIANT_ENUM_CAST(Voxel::GeometryType)
#endif // VOXEL_TYPE_H