X-Git-Url: http://git.localhorst.tv/?a=blobdiff_plain;f=src%2Fworld%2FWorld.hpp;h=771bc0c8c4fd072d8dd59c82c642828c66a30441;hb=ca74cd8cdaf25b5ae778bef1dbabad21cea13b2d;hp=848f801e24ffd30bfb5d95cbe50c46f18278c159;hpb=5178dd1e226d45db7ae61e3d7d6866dc4254d9ae;p=blank.git diff --git a/src/world/World.hpp b/src/world/World.hpp index 848f801..771bc0c 100644 --- a/src/world/World.hpp +++ b/src/world/World.hpp @@ -5,12 +5,13 @@ #include "Entity.hpp" #include "Generator.hpp" #include "Player.hpp" +#include "../graphics/glm.hpp" +#include "../rand/GaloisLFSR.hpp" #include #include #include #include -#include namespace blank { @@ -41,28 +42,41 @@ public: const std::string &Name() const noexcept { return config.name; } + /// get the shared random source for this world + GaloisLFSR &Random() noexcept { return rng; } + /// check if this ray hits a block /// depth in the collision is the distance between the ray's /// origin and the intersection point - /// M is the global transform for given reference chunk + /// reference is the chunk offset of the ray in world space bool Intersection( const Ray &, - const glm::mat4 &M, - const Chunk::Pos &reference, + const ExactLocation::Coarse &reference, WorldCollision &); /// check if this ray hits an entity /// intersections with the reference are not tested - /// M is the global transform for the chunk of given reference entity + /// the ray is assumed to be in world space offset by entity's chunk coords bool Intersection( const Ray &, - const glm::mat4 &M, const Entity &reference, EntityCollision &); /// check if given entity intersects with the world - bool Intersection(const Entity &e, std::vector &); - void Resolve(Entity &e, std::vector &); + bool Intersection(const Entity &e, const EntityState &, std::vector &); + /// combine contacts into a single penetration vector + /// depth is given to point towards position of given state + static glm::vec3 CombinedInterpenetration( + const EntityState &, + const std::vector &) noexcept; + + /// check if given box (M * AABB) intersects with the world + /// M is assumed to be calculated in reference to given chunk coords + bool Intersection( + const AABB &box, + const glm::mat4 &M, + const glm::ivec3 &reference, + std::vector &); const BlockTypeRegistry &BlockTypes() noexcept { return block_type; } ChunkStore &Chunks() noexcept { return chunks; } @@ -82,18 +96,42 @@ public: /// returs an existing entity if ID is already taken Entity &ForceAddEntity(std::uint32_t id); + /// get the player with given name + /// returns nullptr if no player bears this name + Player *FindPlayer(const std::string &name); + /// get an entity with given name + /// returns nullptr if name doesn't refer to any entity + /// note that unlike players, entity names are not unique + Entity *FindEntity(const std::string &name); + + std::list &Players() noexcept { return players; } const std::list &Players() const noexcept { return players; } std::list &Entities() noexcept { return entities; } const std::list &Entities() const noexcept { return entities; } + // dt in ms void Update(int dt); + /// fix state so entity doesn't intersect with the solid world + void ResolveWorldCollision(const Entity &, EntityState &); + /// get force due to gravity at given location + glm::vec3 GravityAt(const ExactLocation &) const noexcept; + void Render(Viewport &); + void RenderDebug(Viewport &); private: using EntityHandle = std::list::iterator; EntityHandle RemoveEntity(EntityHandle &); + /// calculate light direction and intensity at entity's location + void GetLight( + const Entity &entity, + glm::vec3 &direction, + glm::vec3 &color, + glm::vec3 &ambient + ); + private: Config config; @@ -104,6 +142,8 @@ private: std::list players; std::list entities; + GaloisLFSR rng; + glm::vec3 light_direction; float fog_density;