/* Copyright (C) 2012 Wildfire Games. * This file is part of 0 A.D. * * 0 A.D. is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 2 of the License, or * (at your option) any later version. * * 0 A.D. 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 General Public License for more details. * * You should have received a copy of the GNU General Public License * along with 0 A.D. If not, see . */ /* * Water settings (speed, height) and texture management */ #ifndef INCLUDED_WATERMANAGER #define INCLUDED_WATERMANAGER #include "graphics/Texture.h" #include "lib/ogl.h" #include "maths/Matrix3D.h" #include "maths/Vector2D.h" #include "ps/Shapes.h" #include "renderer/VertexBufferManager.h" class CSimulation2; class CFrustum; struct CoastalPoint; struct WaveObject; /** * Class WaterManager: Maintain rendering-related water settings and textures * Anything that affects gameplay should go in CcmpWaterManager.cpp and passed to this (possibly as copy). */ class WaterManager { public: CTexturePtr m_WaterTexture[60]; CTexturePtr m_NormalMap[60]; float* m_WindStrength; // How strong the waves are at point X. % of waviness. float* m_DistanceHeightmap; // How far from the shore a point is. Manhattan CVector3D* m_BlurredNormalMap; // Cache a slightly blurred map of the normals of the terrain. // Waves vertex buffers std::vector< WaveObject* > m_ShoreWaves; // TODO: once we get C++11, remove pointer // Waves indices buffer. Only one since All Wave Objects have the same. CVertexBuffer::VBChunk* m_ShoreWaves_VBIndices; size_t m_MapSize; ssize_t m_TexSize; CTexturePtr m_WaveTex; CTexturePtr m_FoamTex; GLuint m_depthTT; GLuint m_FancyTextureNormal; GLuint m_FancyTextureOther; GLuint m_FancyTextureDepth; GLuint m_ReflFboDepthTexture; GLuint m_RefrFboDepthTexture; // used to know what to update when updating parts of the terrain only. u32 m_updatei0; u32 m_updatej0; u32 m_updatei1; u32 m_updatej1; int m_WaterCurrentTex; bool m_RenderWater; // Force the use of the fixed function for rendering. bool m_WaterUgly; // Those variables register the current quality level. If there is a change, I have to recompile the shader. // Use real depth or use the fake precomputed one. bool m_WaterRealDepth; // Use fancy shore effects and show trails behind ships bool m_WaterFancyEffects; // Use refractions instead of simply making the water more or less transparent. bool m_WaterRefraction; // Use complete reflections instead of showing merely the sky. bool m_WaterReflection; // Show shadows on the water. bool m_WaterShadows; bool m_NeedsReloading; // requires also recreating the super fancy information. bool m_NeedInfoUpdate; float m_WaterHeight; double m_WaterTexTimer; float m_RepeatPeriod; // Reflection and refraction textures for fancy water GLuint m_ReflectionTexture; GLuint m_RefractionTexture; size_t m_ReflectionTextureSize; size_t m_RefractionTextureSize; // framebuffer objects GLuint m_RefractionFbo; GLuint m_ReflectionFbo; GLuint m_FancyEffectsFBO; // Model-view-projection matrices for reflected & refracted cameras // (used to let the vertex shader do projective texturing) CMatrix3D m_ReflectionMatrix; CMatrix3D m_RefractionMatrix; // Water parameters std::wstring m_WaterType; // Which texture to use. CColor m_WaterColor; // Color of the water without refractions. This is what you're seeing when the water's deep or murkiness high. CColor m_WaterTint; // Tint of refraction in the water. float m_Waviness; // How big the waves are. float m_Murkiness; // How murky the water is. float m_WindAngle; // In which direction the water waves go. public: WaterManager(); ~WaterManager(); /** * LoadWaterTextures: Load water textures from within the * progressive load framework. * * @return 0 if loading has completed, a value from 1 to 100 (in percent of completion) * if more textures need to be loaded and a negative error value on failure. */ int LoadWaterTextures(); /** * Resize: Updates the fancy water textures so that water will render correctly * with fancy water. */ void Resize(); /** * ReloadWaterNormalTextures: Reload the normal textures so that changing * water type in Atlas will actually do the right thing. */ void ReloadWaterNormalTextures(); /** * UnloadWaterTextures: Free any loaded water textures and reset the internal state * so that another call to LoadWaterTextures will begin progressive loading. */ void UnloadWaterTextures(); /** * RecomputeWindStrength: calculates the intensity of waves */ void RecomputeWindStrength(); /** * RecomputeDistanceHeightmap: recalculates (or calculates) the distance heightmap. */ void RecomputeDistanceHeightmap(); /** * RecomputeBlurredNormalMap: calculates the blurred normal map of the terrain. Slow. */ void RecomputeBlurredNormalMap(); /** * CreateWaveMeshes: Creates the waves objects (and meshes). */ void CreateWaveMeshes(); /** * Updates the map size. Will trigger a complete recalculation of fancy water information the next turn. */ void SetMapSize(size_t size); /** * Updates the settings to the one from the renderer, and sets m_NeedsReloading. */ void UpdateQuality(); /** * Returns true if fancy water shaders will be used (i.e. the hardware is capable * and it hasn't been configured off) */ bool WillRenderFancyWater(); void RenderWaves(const CFrustum& frustrum); }; #endif // INCLUDED_WATERMANAGER