#ifndef __GL_WALL_H #define __GL_WALL_H //========================================================================== // // One wall segment in the draw list // //========================================================================== #include "r_defs.h" #include "textures/textures.h" #include "gl/renderer/gl_colormap.h" struct GLHorizonInfo; struct F3DFloor; struct model_t; struct FSpriteModelFrame; struct particle_t; class ADynamicLight; class FMaterial; struct GLDrawList; struct GLSkyInfo; struct FTexCoordInfo; struct FPortal; struct FFlatVertex; struct FGLLinePortal; enum { GLSector_NoSkyDraw = 89, GLSector_Skybox = 90, }; enum WallTypes { RENDERWALL_NONE, RENDERWALL_TOP, RENDERWALL_M1S, RENDERWALL_M2S, RENDERWALL_BOTTOM, RENDERWALL_FOGBOUNDARY, RENDERWALL_MIRRORSURFACE, RENDERWALL_M2SNF, RENDERWALL_COLOR, RENDERWALL_FFBLOCK, // Insert new types at the end! }; enum PortalTypes { PORTALTYPE_SKY, PORTALTYPE_HORIZON, PORTALTYPE_SKYBOX, PORTALTYPE_SECTORSTACK, PORTALTYPE_PLANEMIRROR, PORTALTYPE_MIRROR, PORTALTYPE_LINETOLINE, }; struct GLSeg { float x1,x2; float y1,y2; float fracleft, fracright; // fractional offset of the 2 vertices on the linedef }; struct texcoord { float u,v; }; //========================================================================== // // One sector plane, still in fixed point // //========================================================================== struct GLSectorPlane { FTextureID texture; secplane_t plane; float Texheight; float Angle; FVector2 Offs; FVector2 Scale; void GetFromSector(sector_t * sec, int ceiling) { Offs.X = (float)sec->GetXOffset(ceiling); Offs.Y = (float)sec->GetYOffset(ceiling); Scale.X = (float)sec->GetXScale(ceiling); Scale.Y = (float)sec->GetYScale(ceiling); Angle = (float)sec->GetAngle(ceiling).Degrees; texture = sec->GetTexture(ceiling); plane = sec->GetSecPlane(ceiling); Texheight = (float)((ceiling == sector_t::ceiling)? plane.fD() : -plane.fD()); } }; class GLWall { public: enum { //GLWF_CLAMPX=1, use GLT_* for these! //GLWF_CLAMPY=2, GLWF_SKYHACK=4, GLWF_GLOW=8, // illuminated by glowing flats GLWF_NOSPLITUPPER=16, GLWF_NOSPLITLOWER=32, GLWF_NOSPLIT=64, }; enum { RWF_BLANK = 0, RWF_TEXTURED = 1, // actually not being used anymore because with buffers it's even less efficient not writing the texture coordinates - but leave it here RWF_NOSPLIT = 4, RWF_NORENDER = 8, }; friend struct GLDrawList; friend class GLPortal; GLSeg glseg; vertex_t * vertexes[2]; // required for polygon splitting float ztop[2],zbottom[2]; texcoord uplft, uprgt, lolft, lorgt; float alpha; FMaterial *gltexture; FColormap Colormap; ERenderStyle RenderStyle; float ViewDistance; TArray *lightlist; int lightlevel; BYTE type; BYTE flags; short rellight; float topglowcolor[4]; float bottomglowcolor[4]; int dynlightindex; union { // it's either one of them but never more! FSectorPortal *secportal; // sector portal (formerly skybox) GLSkyInfo * sky; // for normal sky GLHorizonInfo * horizon; // for horizon information FPortal * portal; // stacked sector portals secplane_t * planemirror; // for plane mirrors FGLLinePortal *lineportal; // line-to-line portals }; FTextureID topflat,bottomflat; secplane_t topplane, bottomplane; // we need to save these to pass them to the shader for calculating glows. // these are not the same as ytop and ybottom!!! float zceil[2]; float zfloor[2]; public: seg_t * seg; // this gives the easiest access to all other structs involved subsector_t * sub; // For polyobjects private: void CheckGlowing(); bool PutWallCompat(int passflag); void PutWall(bool translucent); void PutPortal(int ptype); void CheckTexturePosition(); void RenderFogBoundaryCompat(); void Put3DWall(lightlist_t * lightlist, bool translucent); void SplitWallComplex(sector_t * frontsector, bool translucent, float maplightbottomleft, float maplightbottomright); void SplitWall(sector_t * frontsector, bool translucent); void SetupLights(); bool PrepareLight(texcoord * tcs, ADynamicLight * light, int pass); void RenderWall(int textured, unsigned int *store = NULL); void RenderTextured(int rflags); void FloodPlane(int pass); void SkyPlane(sector_t *sector, int plane, bool allowmirror); void SkyLine(sector_t *sec, line_t *line); void SkyNormal(sector_t * fs,vertex_t * v1,vertex_t * v2); void SkyTop(seg_t * seg,sector_t * fs,sector_t * bs,vertex_t * v1,vertex_t * v2); void SkyBottom(seg_t * seg,sector_t * fs,sector_t * bs,vertex_t * v1,vertex_t * v2); void LightPass(); void SetHorizon(vertex_t * ul, vertex_t * ur, vertex_t * ll, vertex_t * lr); bool DoHorizon(seg_t * seg,sector_t * fs, vertex_t * v1,vertex_t * v2); bool SetWallCoordinates(seg_t * seg, FTexCoordInfo *tci, float ceilingrefheight, float topleft, float topright, float bottomleft, float bottomright, float t_ofs); void DoTexture(int type,seg_t * seg,int peg, float ceilingrefheight, float floorrefheight, float CeilingHeightstart,float CeilingHeightend, float FloorHeightstart,float FloorHeightend, float v_offset); void DoMidTexture(seg_t * seg, bool drawfogboundary, sector_t * front, sector_t * back, sector_t * realfront, sector_t * realback, float fch1, float fch2, float ffh1, float ffh2, float bch1, float bch2, float bfh1, float bfh2); void GetPlanePos(F3DFloor::planeref * planeref, float & left, float & right); void BuildFFBlock(seg_t * seg, F3DFloor * rover, float ff_topleft, float ff_topright, float ff_bottomleft, float ff_bottomright); void InverseFloors(seg_t * seg, sector_t * frontsector, float topleft, float topright, float bottomleft, float bottomright); void ClipFFloors(seg_t * seg, F3DFloor * ffloor, sector_t * frontsector, float topleft, float topright, float bottomleft, float bottomright); void DoFFloorBlocks(seg_t * seg, sector_t * frontsector, sector_t * backsector, float fch1, float fch2, float ffh1, float ffh2, float bch1, float bch2, float bfh1, float bfh2); void DrawDecal(DBaseDecal *actor); void DoDrawDecals(); void RenderFogBoundary(); void RenderMirrorSurface(); void RenderTranslucentWall(); void SplitLeftEdge(texcoord * tcs, FFlatVertex *&ptr); void SplitRightEdge(texcoord * tcs, FFlatVertex *&ptr); void SplitUpperEdge(texcoord * tcs, FFlatVertex *&ptr); void SplitLowerEdge(texcoord * tcs, FFlatVertex *&ptr); public: void Process(seg_t *seg, sector_t *frontsector, sector_t *backsector); void ProcessLowerMiniseg(seg_t *seg, sector_t *frontsector, sector_t *backsector); void Draw(int pass); float PointOnSide(float x,float y) { return -((y-glseg.y1)*(glseg.x2-glseg.x1)-(x-glseg.x1)*(glseg.y2-glseg.y1)); } // Lines start-end and fdiv must intersect. double CalcIntersectionVertex(GLWall * w2) { float ax = glseg.x1, ay=glseg.y1; float bx = glseg.x2, by=glseg.y2; float cx = w2->glseg.x1, cy=w2->glseg.y1; float dx = w2->glseg.x2, dy=w2->glseg.y2; return ((ay-cy)*(dx-cx)-(ax-cx)*(dy-cy)) / ((bx-ax)*(dy-cy)-(by-ay)*(dx-cx)); } }; //========================================================================== // // One flat plane in the draw list // //========================================================================== class GLFlat { public: friend struct GLDrawList; sector_t * sector; subsector_t * sub; // only used for translucent planes float dz; // z offset for rendering hacks float z; // the z position of the flat (only valid for non-sloped planes) FMaterial *gltexture; FColormap Colormap; // light and fog ERenderStyle renderstyle; float alpha; GLSectorPlane plane; int lightlevel; bool stack; bool ceiling; BYTE renderflags; int vboindex; //int vboheight; int dynlightindex; // compatibility fallback stuff. void DrawSubsectorLights(subsector_t * sub, int pass); void DrawLightsCompat(int pass); bool PutFlatCompat(bool fog); void SetupSubsectorLights(int pass, subsector_t * sub, int *dli = NULL); void DrawSubsector(subsector_t * sub); void DrawSkyboxSector(int pass, bool processlights); void DrawSubsectors(int pass, bool processlights, bool istrans); void ProcessLights(bool istrans); void PutFlat(bool fog = false); void Process(sector_t * model, int whichplane, bool notexture); void SetFrom3DFloor(F3DFloor *rover, bool top, bool underside); void ProcessSector(sector_t * frontsector); void Draw(int pass, bool trans); }; //========================================================================== // // One sprite in the draw list // //========================================================================== class GLSprite { public: friend struct GLDrawList; friend void Mod_RenderModel(GLSprite * spr, model_t * mdl, int framenumber); int lightlevel; BYTE foglevel; BYTE hw_styleflags; bool fullbright; PalEntry ThingColor; // thing's own color FColormap Colormap; FSpriteModelFrame * modelframe; FRenderStyle RenderStyle; int OverrideShader; int translation; int index; int depth; float topclip; float bottomclip; float x,y,z; // needed for sorting! float ul,ur; float vt,vb; float x1,y1,z1; float x2,y2,z2; FMaterial *gltexture; float trans; AActor * actor; particle_t * particle; TArray *lightlist; void SplitSprite(sector_t * frontsector, bool translucent); void SetLowerParam(); void PerformSpriteClipAdjustment(AActor *thing, const DVector2 &thingpos, float spriteheight); public: void Draw(int pass); void PutSprite(bool translucent); void Process(AActor* thing,sector_t * sector, int thruportal = false); void ProcessParticle (particle_t *particle, sector_t *sector);//, int shade, int fakeside) void SetThingColor(PalEntry); // Lines start-end and fdiv must intersect. double CalcIntersectionVertex(GLWall * w2); }; inline float Dist2(float x1,float y1,float x2,float y2) { return sqrtf((x1-x2)*(x1-x2)+(y1-y2)*(y1-y2)); } // Light + color void gl_SetDynSpriteLight(AActor *self, float x, float y, float z, subsector_t *subsec); void gl_SetDynSpriteLight(AActor *actor, particle_t *particle); void gl_RenderActorsInPortal(FGLLinePortal *glport); #endif