#pragma once #include #include #include #include "util.hpp" #include "Pub_Sub.h" #include "Hardware_Caster.h" #include "LightHandle.h" // Typical light workflow: // 1.) Create light prototype with desired values // 2.) Submit prototype to the LightController struct LightPrototype { LightPrototype( sf::Vector3f position, sf::Vector3f direction_cartesian, sf::Vector4f rgbi ) : position(position), direction_cartesian(direction_cartesian), rgbi(rgbi) { }; sf::Vector3f position; sf::Vector3f direction_cartesian; sf::Vector4f rgbi; sf::Vector3f movement; float impulse = 1.0f; float friction = 1.0f; }; // Packed data structure for passing raw light data to the caster struct PackedData { PackedData(sf::Vector3f position, sf::Vector3f direction_cartesian, sf::Vector4f rgbi) : position(position), direction_cartesian(direction_cartesian), rgbi(rgbi) { } PackedData() {}; ~PackedData() {}; sf::Vector4f rgbi; sf::Vector3f position; sf::Vector3f direction_cartesian; }; class LightHandle; class Hardware_Caster; class LightController : public VrEventSubscriber { public: LightController(std::shared_ptr raycaster); ~LightController(); // find a free light 'slot' and create std::shared_ptr create_light(LightPrototype light_prototype); void remove_light(unsigned int light_index); void recieve_event(VrEventPublisher* publisher, std::unique_ptr event) override; private: // Set the static arrays size int reserved_count = 8; // Indices available in the light array std::list open_list; std::vector packed_data_array; };