#include "geometry.hpp"
#include "model.hpp"
+#include <list>
#include <vector>
#include <glm/glm.hpp>
0.5f + (idx / (Width() * Height()))
);
}
+ glm::mat4 ToTransform(int idx) const;
+
+ static constexpr bool IsBorder(int idx) {
+ return
+ idx < Width() * Height() ||
+ (idx / Width()) % Height() == 0 ||
+ (idx / Width()) % Height() == Height() - 1 ||
+ (idx / (Width() * Height())) == Depth() - 1;
+ }
+
+ // check if block at given index is completely enclosed (and therefore invisible)
+ bool Obstructed(int idx) const;
void Allocate();
void Invalidate() { dirty = true; }
const Pos &Position() const { return position; }
glm::mat4 Transform(const Pos &offset) const;
+ void CheckUpdate();
void Draw();
private:
- int VertexCount() const;
void Update();
private:
};
+
+class Generator;
+
+class ChunkLoader {
+
+public:
+ ChunkLoader(const BlockTypeRegistry &, const Generator &);
+
+ void Generate(const Chunk::Pos &from, const Chunk::Pos &to);
+
+ std::list<Chunk> &Loaded() { return loaded; }
+
+ Chunk *Loaded(const Chunk::Pos &);
+ bool Queued(const Chunk::Pos &);
+ bool Known(const Chunk::Pos &);
+ Chunk &ForceLoad(const Chunk::Pos &);
+
+ void Rebase(const Chunk::Pos &);
+ void Update();
+
+private:
+ Chunk::Pos base;
+
+ const BlockTypeRegistry ®
+ const Generator &gen;
+
+ std::list<Chunk> loaded;
+ std::list<Chunk::Pos> to_generate;
+ std::list<Chunk> to_free;
+
+ int load_dist;
+ int unload_dist;
+
+};
+
}
#endif