/* Minetest Copyright (C) 2013 celeron55, Perttu Ahola This program is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ #pragma once #include "irrlichttypes_extrabloated.h" #include #include #include "camera.h" #include "irr_ptr.h" #include "shader.h" #include "skyparams.h" #define SKY_MATERIAL_COUNT 12 class ITextureSource; // Skybox, rendered with zbuffer turned off, before all other nodes. class Sky : public scene::ISceneNode { public: //! constructor Sky(s32 id, RenderingEngine *rendering_engine, ITextureSource *tsrc, IShaderSource *ssrc); virtual void OnRegisterSceneNode(); //! renders the node. virtual void render(); virtual const aabb3f &getBoundingBox() const { return m_box; } // Used by Irrlicht for optimizing rendering virtual video::SMaterial &getMaterial(u32 i) { return m_materials[i]; } virtual u32 getMaterialCount() const { return SKY_MATERIAL_COUNT; } void update(float m_time_of_day, float time_brightness, float direct_brightness, bool sunlight_seen, CameraMode cam_mode, float yaw, float pitch); float getBrightness() { return m_brightness; } const video::SColor &getBgColor() const { return m_visible ? m_bgcolor : m_fallback_bg_color; } const video::SColor &getSkyColor() const { return m_visible ? m_skycolor : m_fallback_bg_color; } void setSunVisible(bool sun_visible) { m_sun_params.visible = sun_visible; } bool getSunVisible() const { return m_sun_params.visible; } void setSunTexture(const std::string &sun_texture, const std::string &sun_tonemap, ITextureSource *tsrc); void setSunScale(f32 sun_scale) { m_sun_params.scale = sun_scale; } void setSunriseVisible(bool glow_visible) { m_sun_params.sunrise_visible = glow_visible; } void setSunriseTexture(const std::string &sunglow_texture, ITextureSource* tsrc); v3f getSunDirection(); void setMoonVisible(bool moon_visible) { m_moon_params.visible = moon_visible; } bool getMoonVisible() const { return m_moon_params.visible; } void setMoonTexture(const std::string &moon_texture, const std::string &moon_tonemap, ITextureSource *tsrc); void setMoonScale(f32 moon_scale) { m_moon_params.scale = moon_scale; } v3f getMoonDirection(); void setStarsVisible(bool stars_visible) { m_star_params.visible = stars_visible; } void setStarCount(u16 star_count); void setStarColor(video::SColor star_color) { m_star_params.starcolor = star_color; } void setStarScale(f32 star_scale) { m_star_params.scale = star_scale; updateStars(); } void setStarDayOpacity(f32 day_opacity) { m_star_params.day_opacity = day_opacity; } bool getCloudsVisible() const { return m_clouds_visible && m_clouds_enabled; } const video::SColorf &getCloudColor() const { return m_cloudcolor_f; } void setVisible(bool visible) { m_visible = visible; } // Set only from set_sky API void setCloudsEnabled(bool clouds_enabled) { m_clouds_enabled = clouds_enabled; } void setFallbackBgColor(video::SColor fallback_bg_color) { m_fallback_bg_color = fallback_bg_color; } void overrideColors(video::SColor bgcolor, video::SColor skycolor) { m_bgcolor = bgcolor; m_skycolor = skycolor; } void setSkyColors(const SkyColor &sky_color); void setHorizonTint(video::SColor sun_tint, video::SColor moon_tint, const std::string &use_sun_tint); void setInClouds(bool clouds) { m_in_clouds = clouds; } void clearSkyboxTextures() { m_sky_params.textures.clear(); } void addTextureToSkybox(const std::string &texture, int material_id, ITextureSource *tsrc); const video::SColorf &getCurrentStarColor() const { return m_star_color; } private: aabb3f m_box; video::SMaterial m_materials[SKY_MATERIAL_COUNT]; // How much sun & moon transition should affect horizon color float m_horizon_blend() { if (!m_sunlight_seen) return 0; float x = m_time_of_day >= 0.5 ? (1 - m_time_of_day) * 2 : m_time_of_day * 2; if (x <= 0.3) return 0; if (x <= 0.4) // when the sun and moon are aligned return (x - 0.3) * 10; if (x <= 0.5) return (0.5 - x) * 10; return 0; } // Mix two colors by a given amount static video::SColor m_mix_scolor(video::SColor col1, video::SColor col2, f32 factor) { video::SColor result = video::SColor( col1.getAlpha() * (1 - factor) + col2.getAlpha() * factor, col1.getRed() * (1 - factor) + col2.getRed() * factor, col1.getGreen() * (1 - factor) + col2.getGreen() * factor, col1.getBlue() * (1 - factor) + col2.getBlue() * factor); return result; } static video::SColorf m_mix_scolorf(video::SColorf col1, video::SColorf col2, f32 factor) { video::SColorf result = video::SColorf(col1.r * (1 - factor) + col2.r * factor, col1.g * (1 - factor) + col2.g * factor, col1.b * (1 - factor) + col2.b * factor, col1.a * (1 - factor) + col2.a * factor); return result; } bool m_visible = true; // Used when m_visible=false video::SColor m_fallback_bg_color = video::SColor(255, 255, 255, 255); bool m_first_update = true; // Set before the sky is updated for the first time float m_time_of_day; float m_time_brightness; bool m_sunlight_seen; float m_brightness = 0.5f; float m_cloud_brightness = 0.5f; bool m_clouds_visible; // Whether clouds are disabled due to player underground bool m_clouds_enabled = true; // Initialised to true, reset only by set_sky API bool m_directional_colored_fog; bool m_in_clouds = true; // Prevent duplicating bools to remember old values bool m_enable_shaders = false; float m_sky_body_orbit_tilt = 0.0f; video::SColorf m_bgcolor_bright_f = video::SColorf(1.0f, 1.0f, 1.0f, 1.0f); video::SColorf m_skycolor_bright_f = video::SColorf(1.0f, 1.0f, 1.0f, 1.0f); video::SColorf m_cloudcolor_bright_f = video::SColorf(1.0f, 1.0f, 1.0f, 1.0f); video::SColor m_bgcolor; video::SColor m_skycolor; video::SColorf m_cloudcolor_f; // pure white: becomes "diffuse light component" for clouds video::SColorf m_cloudcolor_day_f = video::SColorf(1, 1, 1, 1); // dawn-factoring version of pure white (note: R is above 1.0) video::SColorf m_cloudcolor_dawn_f = video::SColorf( 255.0f/240.0f, 223.0f/240.0f, 191.0f/255.0f ); SkyboxParams m_sky_params; SunParams m_sun_params; MoonParams m_moon_params; StarParams m_star_params; bool m_default_tint = true; u64 m_seed = 0; irr_ptr m_stars; video::SColorf m_star_color; video::ITexture *m_sun_texture; video::ITexture *m_moon_texture; video::ITexture *m_sun_tonemap; video::ITexture *m_moon_tonemap; void updateStars(); void draw_sun(video::IVideoDriver *driver, float sunsize, const video::SColor &suncolor, const video::SColor &suncolor2, float wicked_time_of_day); void draw_moon(video::IVideoDriver *driver, float moonsize, const video::SColor &mooncolor, const video::SColor &mooncolor2, float wicked_time_of_day); void draw_sky_body(std::array &vertices, float pos_1, float pos_2, const video::SColor &c); void draw_stars(video::IVideoDriver *driver, float wicked_time_of_day); void place_sky_body(std::array &vertices, float horizon_position, float day_position); }; // calculates value for sky body positions for the given observed time of day // this is used to draw both Sun/Moon and shadows float getWickedTimeOfDay(float time_of_day);