diff --git a/src/hardware/hw_main.c b/src/hardware/hw_main.c index 5f1e8d8c4..be03ba083 100644 --- a/src/hardware/hw_main.c +++ b/src/hardware/hw_main.c @@ -469,7 +469,7 @@ static UINT8 HWR_FogBlockAlpha(INT32 light, UINT32 color) // Let's see if this c // -----------------+ // HWR_RenderPlane : Render a floor or ceiling convex polygon // -----------------+ -static void HWR_RenderPlane(sector_t *sector, extrasubsector_t *xsub, boolean isceiling, fixed_t fixedheight, +static void HWR_RenderPlane(subsector_t *subsector, extrasubsector_t *xsub, boolean isceiling, fixed_t fixedheight, FBITFIELD PolyFlags, INT32 lightlevel, levelflat_t *levelflat, sector_t *FOFsector, UINT8 alpha, boolean fogplane, extracolormap_t *planecolormap) { polyvertex_t * pv; @@ -493,8 +493,6 @@ static void HWR_RenderPlane(sector_t *sector, extrasubsector_t *xsub, boolean is static FOutVector *planeVerts = NULL; static UINT16 numAllocedPlaneVerts = 0; - (void)sector; ///@TODO remove shitty unused variable - // no convex poly were generated for this subsector if (!xsub->planepoly) return; @@ -593,8 +591,6 @@ static void HWR_RenderPlane(sector_t *sector, extrasubsector_t *xsub, boolean is flatyref = (float)(((fixed_t)pv->y & (~flatflag)) / fflatheight); // transform - v3d = planeVerts; - if (FOFsector != NULL) { if (!isceiling) // it's a floor @@ -637,46 +633,43 @@ static void HWR_RenderPlane(sector_t *sector, extrasubsector_t *xsub, boolean is flatyref = (FIXED_TO_FLOAT(FixedMul(tempxsow, FINESINE(angle)) + FixedMul(tempytow, FINECOSINE(angle)))); } - for (i = 0; i < nrPlaneVerts; i++,v3d++,pv++) - { - // Hurdler: add scrolling texture on floor/ceiling - if (texflat) - { - v3d->sow = (float)(pv->x / fflatwidth) + scrollx; - v3d->tow = -(float)(pv->y / fflatheight) + scrolly; - } - else - { - v3d->sow = (float)((pv->x / fflatwidth) - flatxref + scrollx); - v3d->tow = (float)(flatyref - (pv->y / fflatheight) + scrolly); - } +#define SETUP3DVERT(vert, vx, vy) {\ + /* Hurdler: add scrolling texture on floor/ceiling */\ + if (texflat)\ + {\ + vert->sow = (float)((vx) / fflatwidth) + scrollx;\ + vert->tow = -(float)((vy) / fflatheight) + scrolly;\ + }\ + else\ + {\ + vert->sow = (float)(((vx) / fflatwidth) - flatxref + scrollx);\ + vert->tow = (float)(flatyref - ((vy) / fflatheight) + scrolly);\ + }\ +\ + /* Need to rotate before translate */\ + if (angle) /* Only needs to be done if there's an altered angle */\ + {\ + tempxsow = FLOAT_TO_FIXED(vert->sow);\ + tempytow = FLOAT_TO_FIXED(vert->tow);\ + if (texflat)\ + tempytow = -tempytow;\ + vert->sow = (FIXED_TO_FLOAT(FixedMul(tempxsow, FINECOSINE(angle)) - FixedMul(tempytow, FINESINE(angle))));\ + vert->tow = (FIXED_TO_FLOAT(FixedMul(tempxsow, FINESINE(angle)) + FixedMul(tempytow, FINECOSINE(angle))));\ + }\ +\ + vert->x = (vx);\ + vert->y = height;\ + vert->z = (vy);\ +\ + if (slope)\ + {\ + fixedheight = P_GetZAt(slope, FLOAT_TO_FIXED((vx)), FLOAT_TO_FIXED((vy)));\ + vert->y = FIXED_TO_FLOAT(fixedheight);\ + }\ +} - // Need to rotate before translate - if (angle) // Only needs to be done if there's an altered angle - { - tempxsow = FLOAT_TO_FIXED(v3d->sow); - tempytow = FLOAT_TO_FIXED(v3d->tow); - if (texflat) - tempytow = -tempytow; - v3d->sow = (FIXED_TO_FLOAT(FixedMul(tempxsow, FINECOSINE(angle)) - FixedMul(tempytow, FINESINE(angle)))); - v3d->tow = (FIXED_TO_FLOAT(FixedMul(tempxsow, FINESINE(angle)) + FixedMul(tempytow, FINECOSINE(angle)))); - } - - //v3d->sow = (float)(v3d->sow - flatxref + scrollx); - //v3d->tow = (float)(flatyref - v3d->tow + scrolly); - - v3d->x = pv->x; - v3d->y = height; - v3d->z = pv->y; - -#ifdef ESLOPE - if (slope) - { - fixedheight = P_GetZAt(slope, FLOAT_TO_FIXED(pv->x), FLOAT_TO_FIXED(pv->y)); - v3d->y = FIXED_TO_FLOAT(fixedheight); - } -#endif - } + for (i = 0, v3d = planeVerts; i < nrPlaneVerts; i++,v3d++,pv++) + SETUP3DVERT(v3d, pv->x, pv->y); // only useful for flat coloured triangles //Surf.FlatColor = 0xff804020; @@ -687,38 +680,6 @@ static void HWR_RenderPlane(sector_t *sector, extrasubsector_t *xsub, boolean is Surf.FlatColor.s.red = Surf.FlatColor.s.green = Surf.FlatColor.s.blue = LightLevelToLum(lightlevel); // Don't take from the frontsector, or the game will crash -#if 0 // no colormap test - // colormap test - if (gr_frontsector) - { - sector_t *psector = gr_frontsector; - -#ifdef ESLOPE - if (slope) - fixedheight = P_GetZAt(slope, psector->soundorg.x, psector->soundorg.y); -#endif - - if (psector->ffloors) - { - ffloor_t *caster = psector->lightlist[R_GetPlaneLight(psector, fixedheight, false)].caster; - psector = caster ? §ors[caster->secnum] : psector; - - if (caster) - { - lightlevel = psector->lightlevel; - Surf.FlatColor.s.red = Surf.FlatColor.s.green = Surf.FlatColor.s.blue = LightLevelToLum(lightlevel); - } - } - if (psector->extra_colormap) - Surf.FlatColor.rgba = HWR_Lighting(lightlevel,psector->extra_colormap->rgba,psector->extra_colormap->fadergba, false, true); - else - Surf.FlatColor.rgba = HWR_Lighting(lightlevel,NORMALFOG,FADEFOG, false, true); - } - else - Surf.FlatColor.rgba = HWR_Lighting(lightlevel,NORMALFOG,FADEFOG, false, true); - -#endif // NOPE - if (planecolormap) { if (fogplane) @@ -744,6 +705,79 @@ static void HWR_RenderPlane(sector_t *sector, extrasubsector_t *xsub, boolean is HWD.pfnDrawPolygon(&Surf, planeVerts, nrPlaneVerts, PolyFlags); + if (subsector) + { + // Horizon lines + FOutVector horizonpts[6]; + float dist, vx, vy; + float x1, y1, xd, yd; + UINT8 numplanes, j; + vertex_t v; // For determining the closest distance from the line to the camera, to split render planes for minimum distortion; + + const float renderdist = 27000.0f; // How far out to properly render the plane + const float farrenderdist = 32768.0f; // From here, raise plane to horizon level to fill in the line with some texture distortion + + seg_t *line = &segs[subsector->firstline]; + + for (i = 0; i < subsector->numlines; i++, line++) + { + if (!line->glseg && line->linedef->special == HORIZONSPECIAL && R_PointOnSegSide(dup_viewx, dup_viewy, line) == 0) + { + P_ClosestPointOnLine(viewx, viewy, line->linedef, &v); + dist = FIXED_TO_FLOAT(R_PointToDist(v.x, v.y)); + + x1 = ((polyvertex_t *)line->pv1)->x; + y1 = ((polyvertex_t *)line->pv1)->y; + xd = ((polyvertex_t *)line->pv2)->x - x1; + yd = ((polyvertex_t *)line->pv2)->y - y1; + + // Based on the seg length and the distance from the line, split horizon into multiple poly sets to reduce distortion + dist = sqrtf((xd*xd) + (yd*yd)) / dist / 16.0f; + if (dist > 100.0f) + numplanes = 100; + else + numplanes = (UINT8)dist + 1; + + for (j = 0; j < numplanes; j++) + { + // Left side + vx = x1 + xd * j / numplanes; + vy = y1 + yd * j / numplanes; + SETUP3DVERT((&horizonpts[1]), vx, vy); + + dist = sqrtf(powf(vx - gr_viewx, 2) + powf(vy - gr_viewy, 2)); + vx = (vx - gr_viewx) * renderdist / dist + gr_viewx; + vy = (vy - gr_viewy) * renderdist / dist + gr_viewy; + SETUP3DVERT((&horizonpts[0]), vx, vy); + + // Right side + vx = x1 + xd * (j+1) / numplanes; + vy = y1 + yd * (j+1) / numplanes; + SETUP3DVERT((&horizonpts[2]), vx, vy); + + dist = sqrtf(powf(vx - gr_viewx, 2) + powf(vy - gr_viewy, 2)); + vx = (vx - gr_viewx) * renderdist / dist + gr_viewx; + vy = (vy - gr_viewy) * renderdist / dist + gr_viewy; + SETUP3DVERT((&horizonpts[3]), vx, vy); + + // Horizon fills + vx = (horizonpts[0].x - gr_viewx) * farrenderdist / renderdist + gr_viewx; + vy = (horizonpts[0].z - gr_viewy) * farrenderdist / renderdist + gr_viewy; + SETUP3DVERT((&horizonpts[5]), vx, vy); + horizonpts[5].y = gr_viewz; + + vx = (horizonpts[3].x - gr_viewx) * farrenderdist / renderdist + gr_viewx; + vy = (horizonpts[3].z - gr_viewy) * farrenderdist / renderdist + gr_viewy; + SETUP3DVERT((&horizonpts[4]), vx, vy); + horizonpts[4].y = gr_viewz; + + // Draw + HWD.pfnDrawPolygon(&Surf, horizonpts, 6, PolyFlags); + } + } + } + } + #ifdef ALAM_LIGHTING // add here code for dynamic lighting on planes HWR_PlaneLighting(planeVerts, nrPlaneVerts); @@ -3561,7 +3595,7 @@ static void HWR_Subsector(size_t num) if (sub->validcount != validcount) { HWR_GetLevelFlat(&levelflats[gr_frontsector->floorpic]); - HWR_RenderPlane(gr_frontsector, &extrasubsectors[num], false, + HWR_RenderPlane(sub, &extrasubsectors[num], false, // Hack to make things continue to work around slopes. locFloorHeight == cullFloorHeight ? locFloorHeight : gr_frontsector->floorheight, // We now return you to your regularly scheduled rendering. @@ -3583,7 +3617,7 @@ static void HWR_Subsector(size_t num) if (sub->validcount != validcount) { HWR_GetLevelFlat(&levelflats[gr_frontsector->ceilingpic]); - HWR_RenderPlane(NULL, &extrasubsectors[num], true, + HWR_RenderPlane(sub, &extrasubsectors[num], true, // Hack to make things continue to work around slopes. locCeilingHeight == cullCeilingHeight ? locCeilingHeight : gr_frontsector->ceilingheight, // We now return you to your regularly scheduled rendering. @@ -3677,7 +3711,7 @@ static void HWR_Subsector(size_t num) { HWR_GetLevelFlat(&levelflats[*rover->bottompic]); light = R_GetPlaneLight(gr_frontsector, centerHeight, dup_viewz < cullHeight ? true : false); - HWR_RenderPlane(NULL, &extrasubsectors[num], false, *rover->bottomheight, PF_Occlude, *gr_frontsector->lightlist[light].lightlevel, &levelflats[*rover->bottompic], + HWR_RenderPlane(sub, &extrasubsectors[num], false, *rover->bottomheight, PF_Occlude, *gr_frontsector->lightlist[light].lightlevel, &levelflats[*rover->bottompic], rover->master->frontsector, 255, false, *gr_frontsector->lightlist[light].extra_colormap); } } @@ -3741,7 +3775,7 @@ static void HWR_Subsector(size_t num) { HWR_GetLevelFlat(&levelflats[*rover->toppic]); light = R_GetPlaneLight(gr_frontsector, centerHeight, dup_viewz < cullHeight ? true : false); - HWR_RenderPlane(NULL, &extrasubsectors[num], true, *rover->topheight, PF_Occlude, *gr_frontsector->lightlist[light].lightlevel, &levelflats[*rover->toppic], + HWR_RenderPlane(sub, &extrasubsectors[num], true, *rover->topheight, PF_Occlude, *gr_frontsector->lightlist[light].lightlevel, &levelflats[*rover->toppic], rover->master->frontsector, 255, false, *gr_frontsector->lightlist[light].extra_colormap); } }