/* =========================================================================== Doom 3 BFG Edition GPL Source Code Copyright (C) 1993-2012 id Software LLC, a ZeniMax Media company. This file is part of the Doom 3 BFG Edition GPL Source Code ("Doom 3 BFG Edition Source Code"). Doom 3 BFG Edition Source Code 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 3 of the License, or (at your option) any later version. Doom 3 BFG Edition Source Code 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 Doom 3 BFG Edition Source Code. If not, see . In addition, the Doom 3 BFG Edition Source Code is also subject to certain additional terms. You should have received a copy of these additional terms immediately following the terms and conditions of the GNU General Public License which accompanied the Doom 3 BFG Edition Source Code. If not, please request a copy in writing from id Software at the address below. If you have questions concerning this license or the applicable additional terms, you may contact in writing id Software LLC, c/o ZeniMax Media Inc., Suite 120, Rockville, Maryland 20850 USA. =========================================================================== */ #ifndef __RENDERPROGS_H__ #define __RENDERPROGS_H__ static const int PC_ATTRIB_INDEX_VERTEX = 0; static const int PC_ATTRIB_INDEX_NORMAL = 2; static const int PC_ATTRIB_INDEX_COLOR = 3; static const int PC_ATTRIB_INDEX_COLOR2 = 4; static const int PC_ATTRIB_INDEX_ST = 8; static const int PC_ATTRIB_INDEX_TANGENT = 9; // This enum list corresponds to the global constant register indecies as defined in global.inc for all // shaders. We used a shared pool to keeps things simple. If something changes here then it also // needs to change in global.inc and vice versa enum renderParm_t { // For backwards compatibility, do not change the order of the first 17 items RENDERPARM_SCREENCORRECTIONFACTOR = 0, RENDERPARM_WINDOWCOORD, RENDERPARM_DIFFUSEMODIFIER, RENDERPARM_SPECULARMODIFIER, RENDERPARM_LOCALLIGHTORIGIN, RENDERPARM_LOCALVIEWORIGIN, RENDERPARM_LIGHTPROJECTION_S, RENDERPARM_LIGHTPROJECTION_T, RENDERPARM_LIGHTPROJECTION_Q, RENDERPARM_LIGHTFALLOFF_S, RENDERPARM_BUMPMATRIX_S, RENDERPARM_BUMPMATRIX_T, RENDERPARM_DIFFUSEMATRIX_S, RENDERPARM_DIFFUSEMATRIX_T, RENDERPARM_SPECULARMATRIX_S, RENDERPARM_SPECULARMATRIX_T, RENDERPARM_VERTEXCOLOR_MODULATE, RENDERPARM_VERTEXCOLOR_ADD, // The following are new and can be in any order RENDERPARM_COLOR, RENDERPARM_VIEWORIGIN, RENDERPARM_GLOBALEYEPOS, RENDERPARM_MVPMATRIX_X, RENDERPARM_MVPMATRIX_Y, RENDERPARM_MVPMATRIX_Z, RENDERPARM_MVPMATRIX_W, RENDERPARM_MODELMATRIX_X, RENDERPARM_MODELMATRIX_Y, RENDERPARM_MODELMATRIX_Z, RENDERPARM_MODELMATRIX_W, RENDERPARM_PROJMATRIX_X, RENDERPARM_PROJMATRIX_Y, RENDERPARM_PROJMATRIX_Z, RENDERPARM_PROJMATRIX_W, RENDERPARM_MODELVIEWMATRIX_X, RENDERPARM_MODELVIEWMATRIX_Y, RENDERPARM_MODELVIEWMATRIX_Z, RENDERPARM_MODELVIEWMATRIX_W, RENDERPARM_TEXTUREMATRIX_S, RENDERPARM_TEXTUREMATRIX_T, RENDERPARM_TEXGEN_0_S, RENDERPARM_TEXGEN_0_T, RENDERPARM_TEXGEN_0_Q, RENDERPARM_TEXGEN_0_ENABLED, RENDERPARM_TEXGEN_1_S, RENDERPARM_TEXGEN_1_T, RENDERPARM_TEXGEN_1_Q, RENDERPARM_TEXGEN_1_ENABLED, RENDERPARM_WOBBLESKY_X, RENDERPARM_WOBBLESKY_Y, RENDERPARM_WOBBLESKY_Z, RENDERPARM_OVERBRIGHT, RENDERPARM_ENABLE_SKINNING, RENDERPARM_ALPHA_TEST, RENDERPARM_TOTAL, RENDERPARM_USER = 128, }; struct glslUniformLocation_t { int parmIndex; GLint uniformIndex; }; /* ================================================================================================ idRenderProgManager ================================================================================================ */ class idRenderProgManager { public: idRenderProgManager(); virtual ~idRenderProgManager(); void Init(); void Shutdown(); void SetRenderParm( renderParm_t rp, const float* value ); void SetRenderParms( renderParm_t rp, const float* values, int numValues ); int FindVertexShader( const char* name ); int FindFragmentShader( const char* name ); void BindShader( int vIndex, int fIndex ); void BindShader_GUI( ) { BindShader_Builtin( BUILTIN_GUI ); } void BindShader_Color( ) { BindShader_Builtin( BUILTIN_COLOR ); } void BindShader_Texture( ) { BindShader_Builtin( BUILTIN_TEXTURED ); } void BindShader_TextureVertexColor() { BindShader_Builtin( BUILTIN_TEXTURE_VERTEXCOLOR ); }; void BindShader_TextureVertexColorSkinned() { BindShader_Builtin( BUILTIN_TEXTURE_VERTEXCOLOR_SKINNED ); }; void BindShader_TextureTexGenVertexColor() { BindShader_Builtin( BUILTIN_TEXTURE_TEXGEN_VERTEXCOLOR ); }; void BindShader_Interaction() { BindShader_Builtin( BUILTIN_INTERACTION ); } void BindShader_InteractionSkinned() { BindShader_Builtin( BUILTIN_INTERACTION_SKINNED ); } void BindShader_InteractionAmbient() { BindShader_Builtin( BUILTIN_INTERACTION_AMBIENT ); } void BindShader_InteractionAmbientSkinned() { BindShader_Builtin( BUILTIN_INTERACTION_AMBIENT_SKINNED ); } void BindShader_SimpleShade() { BindShader_Builtin( BUILTIN_SIMPLESHADE ); } void BindShader_Environment() { BindShader_Builtin( BUILTIN_ENVIRONMENT ); } void BindShader_EnvironmentSkinned() { BindShader_Builtin( BUILTIN_ENVIRONMENT_SKINNED ); } void BindShader_BumpyEnvironment() { BindShader_Builtin( BUILTIN_BUMPY_ENVIRONMENT ); } void BindShader_BumpyEnvironmentSkinned() { BindShader_Builtin( BUILTIN_BUMPY_ENVIRONMENT_SKINNED ); } void BindShader_Depth() { BindShader_Builtin( BUILTIN_DEPTH ); } void BindShader_DepthSkinned() { BindShader_Builtin( BUILTIN_DEPTH_SKINNED ); } void BindShader_Shadow() { BindShader( builtinShaders[BUILTIN_SHADOW], -1 ); } void BindShader_ShadowSkinned() { BindShader( builtinShaders[BUILTIN_SHADOW_SKINNED], -1 ); } void BindShader_ShadowDebug() { BindShader_Builtin( BUILTIN_SHADOW_DEBUG ); } void BindShader_ShadowDebugSkinned() { BindShader_Builtin( BUILTIN_SHADOW_DEBUG_SKINNED ); } void BindShader_BlendLight() { BindShader_Builtin( BUILTIN_BLENDLIGHT ); } void BindShader_Fog() { BindShader_Builtin( BUILTIN_FOG ); } void BindShader_FogSkinned() { BindShader_Builtin( BUILTIN_FOG_SKINNED ); } void BindShader_SkyBox() { BindShader_Builtin( BUILTIN_SKYBOX ); } void BindShader_WobbleSky() { BindShader_Builtin( BUILTIN_WOBBLESKY ); } void BindShader_StereoDeGhost() { BindShader_Builtin( BUILTIN_STEREO_DEGHOST ); } void BindShader_StereoWarp() { BindShader_Builtin( BUILTIN_STEREO_WARP ); } void BindShader_StereoInterlace() { BindShader_Builtin( BUILTIN_STEREO_INTERLACE ); } void BindShader_PostProcess() { BindShader_Builtin( BUILTIN_POSTPROCESS ); } void BindShader_ZCullReconstruct() { BindShader_Builtin( BUILTIN_ZCULL_RECONSTRUCT ); } void BindShader_Bink() { BindShader_Builtin( BUILTIN_BINK ); } void BindShader_BinkGUI() { BindShader_Builtin( BUILTIN_BINK_GUI ); } void BindShader_MotionBlur() { BindShader_Builtin( BUILTIN_MOTION_BLUR ); } // the joints buffer should only be bound for vertex programs that use joints bool ShaderUsesJoints() const { return vertexShaders[currentVertexShader].usesJoints; } // the rpEnableSkinning render parm should only be set for vertex programs that use it bool ShaderHasOptionalSkinning() const { return vertexShaders[currentVertexShader].optionalSkinning; } // unbind the currently bound render program void Unbind(); // this should only be called via the reload shader console command void LoadAllShaders(); void KillAllShaders(); static const int MAX_GLSL_USER_PARMS = 8; const char* GetGLSLParmName( int rp ) const; int GetGLSLCurrentProgram() const { return currentRenderProgram; } void SetUniformValue( const renderParm_t rp, const float* value ); void CommitUniforms(); int FindGLSLProgram( const char* name, int vIndex, int fIndex ); void ZeroUniforms(); protected: void LoadVertexShader( int index ); void LoadFragmentShader( int index ); enum { BUILTIN_GUI, BUILTIN_COLOR, BUILTIN_SIMPLESHADE, BUILTIN_TEXTURED, BUILTIN_TEXTURE_VERTEXCOLOR, BUILTIN_TEXTURE_VERTEXCOLOR_SKINNED, BUILTIN_TEXTURE_TEXGEN_VERTEXCOLOR, BUILTIN_INTERACTION, BUILTIN_INTERACTION_SKINNED, BUILTIN_INTERACTION_AMBIENT, BUILTIN_INTERACTION_AMBIENT_SKINNED, BUILTIN_ENVIRONMENT, BUILTIN_ENVIRONMENT_SKINNED, BUILTIN_BUMPY_ENVIRONMENT, BUILTIN_BUMPY_ENVIRONMENT_SKINNED, BUILTIN_DEPTH, BUILTIN_DEPTH_SKINNED, BUILTIN_SHADOW, BUILTIN_SHADOW_SKINNED, BUILTIN_SHADOW_DEBUG, BUILTIN_SHADOW_DEBUG_SKINNED, BUILTIN_BLENDLIGHT, BUILTIN_FOG, BUILTIN_FOG_SKINNED, BUILTIN_SKYBOX, BUILTIN_WOBBLESKY, BUILTIN_POSTPROCESS, BUILTIN_STEREO_DEGHOST, BUILTIN_STEREO_WARP, BUILTIN_ZCULL_RECONSTRUCT, BUILTIN_BINK, BUILTIN_BINK_GUI, BUILTIN_STEREO_INTERLACE, BUILTIN_MOTION_BLUR, MAX_BUILTINS }; int builtinShaders[MAX_BUILTINS]; void BindShader_Builtin( int i ) { BindShader( builtinShaders[i], builtinShaders[i] ); } bool CompileGLSL( GLenum target, const char* name ); GLuint LoadGLSLShader( GLenum target, const char* name, idList& uniforms ); void LoadGLSLProgram( const int programIndex, const int vertexShaderIndex, const int fragmentShaderIndex ); static const GLuint INVALID_PROGID = 0xFFFFFFFF; struct vertexShader_t { vertexShader_t() : progId( INVALID_PROGID ), usesJoints( false ), optionalSkinning( false ) {} idStr name; GLuint progId; bool usesJoints; bool optionalSkinning; idList uniforms; }; struct fragmentShader_t { fragmentShader_t() : progId( INVALID_PROGID ) {} idStr name; GLuint progId; idList uniforms; }; struct glslProgram_t { glslProgram_t() : progId( INVALID_PROGID ), vertexShaderIndex( -1 ), fragmentShaderIndex( -1 ), vertexUniformArray( -1 ), fragmentUniformArray( -1 ) {} idStr name; GLuint progId; int vertexShaderIndex; int fragmentShaderIndex; GLint vertexUniformArray; GLint fragmentUniformArray; idList uniformLocations; }; int currentRenderProgram; idList glslPrograms; idStaticList < idVec4, RENDERPARM_USER + MAX_GLSL_USER_PARMS > glslUniforms; int currentVertexShader; int currentFragmentShader; idList vertexShaders; idList fragmentShaders; }; extern idRenderProgManager renderProgManager; #endif