#ifndef _GAMERENDERER_HPP_ #define _GAMERENDERER_HPP_ #define GLEW_STATIC #include #include #include #include #include #include "MapRenderer.hpp" #include "TextRenderer.hpp" #include "WaterRenderer.hpp" class Model; class ModelFrame; class GameWorld; class GameObject; class AreaIndicatorInfo; /// @todo migrate to some other way of rendering each object type. class CharacterObject; class VehicleObject; class InstanceObject; class PickupObject; class ProjectileObject; class CutsceneObject; class Animator; class InventoryItem; class Renderer; /** * @brief Implements high level drawing logic and low level draw commands * * Rendering of object types is handled by drawWorld, calling the respective * render function for each object. */ class GameRenderer { /** Pointer to the world instance */ GameWorld* engine; /** The low-level drawing interface to use */ Renderer* renderer; /** Stores data for deferring transparent objects */ struct RQueueEntry { Model* model; size_t g; size_t sg; glm::mat4 matrix; Renderer::DrawParameters dp; GameObject* object; }; /** * @brief renders a model's frame. * @param m * @param f * @param matrix * @param object * @param queueTransparent abort the draw if the frame contains transparent materials * @return True if the frame was drawn, false if it should be queued */ bool renderFrame(Model* m, ModelFrame* f, const glm::mat4& matrix, GameObject* object, float opacity, bool queueTransparent = true); /** Transparent objects are queued into this list */ std::vector transparentDrawQueue; float _renderAlpha; /** Internal non-descript VAOs */ GLuint vao, debugVAO; /** Camera values passed to renderWorld() */ ViewCamera _camera; GLuint framebufferName; GLuint fbTextures[2]; GLuint fbRenderBuffers[1]; Renderer::ShaderProgram* postProg; public: GameRenderer(GameWorld*); ~GameRenderer(); /** Number of culling events */ size_t culled; /** @todo Clean up all these shader program and location variables */ Renderer::ShaderProgram* worldProg; Renderer::ShaderProgram* skyProg; Renderer::ShaderProgram* particleProg; GLuint ssRectProgram; GLint ssRectTexture, ssRectColour, ssRectSize, ssRectOffset; GLuint skydomeVBO, skydomeIBO, debugVBO; GLuint debugTex; DrawBuffer skyDbuff; GeometryBuffer skyGbuff; DrawBuffer cylinderBuffer; GeometryBuffer cylinderGeometry; /** * Renders the world using the parameters of the passed Camera. * Note: The camera's near and far planes are overriden by weather effects. * * - draws all objects (instances, vehicles etc.) * - draws particles * - draws water surfaces * - draws the skybox */ void renderWorld(const ViewCamera &camera, float alpha); /** * @brief draws a CharacterObject and any item they are holding. * @param pedestrian the character to render */ void renderPedestrian(CharacterObject* pedestrian); /** * @brief draws a VehicleObject and it's wheels. * @param vehicle vehicle to render */ void renderVehicle(VehicleObject* vehicle); /** * @brief draw part of the world. */ void renderInstance(InstanceObject* instance); /** * @brief draws a pickup with it's model * @param pickup * @todo corona rendering, with tint. */ void renderPickup(PickupObject* pickup); void renderProjectile(ProjectileObject* projectile); void renderCutsceneObject(CutsceneObject *cutscene); void renderWheel(Model*, const glm::mat4& matrix, const std::string& name); void renderItem(InventoryItem* item, const glm::mat4& modelMatrix); /** * Renders the effects (Particles, Lighttrails etc) */ void renderEffects(); /** * @brief Draws the current on screen text. */ void drawOnScreenText(); /** * Renders a model (who'd have thought) */ void renderModel(Model*, const glm::mat4& modelMatrix, GameObject* = nullptr, Animator* animator = nullptr); void renderGeometry(Model*, size_t geom, const glm::mat4& modelMatrix, float opacity, GameObject* = nullptr); /** Renders the area indicator */ void renderAreaIndicator(const AreaIndicatorInfo* info); /** method for rendering AI debug information */ void renderPaths(); /** Increases cinematic value */ void renderLetterbox(); Renderer* getRenderer() { return renderer; } void setViewport(int w, int h); MapRenderer map; WaterRenderer water; TextRenderer text; }; #endif