Merge branch 'opengl-planes' into 'master'

OpenGL planes fix

This branch removes a specific hack in the OpenGL code for detecting if a plane is for the floor or ceiling of a sector. This it turns out fixes ceiling slopes in Boinciel's SUGOI map going missing. Though, It doesn't fix that other glitch with one FOF (must be unrelated).

If you want to test these fixes out properly, make sure working in-level sectors, FOFs AND also polyobjects all still work fine, sloped or not.

See merge request !97
This commit is contained in:
Monster Iestyn 2016-08-11 12:15:08 -04:00
commit c79428a178

View file

@ -66,9 +66,9 @@ static void HWR_ProjectPrecipitationSprite(precipmobj_t *thing);
#endif #endif
#ifdef SORTING #ifdef SORTING
void HWR_AddTransparentFloor(lumpnum_t lumpnum, extrasubsector_t *xsub, fixed_t fixedheight, void HWR_AddTransparentFloor(lumpnum_t lumpnum, extrasubsector_t *xsub, boolean isceiling, fixed_t fixedheight,
INT32 lightlevel, INT32 alpha, sector_t *FOFSector, FBITFIELD blend, boolean fogplane, extracolormap_t *planecolormap); INT32 lightlevel, INT32 alpha, sector_t *FOFSector, FBITFIELD blend, boolean fogplane, extracolormap_t *planecolormap);
void HWR_AddTransparentPolyobjectFloor(lumpnum_t lumpnum, polyobj_t *polysector, fixed_t fixedheight, void HWR_AddTransparentPolyobjectFloor(lumpnum_t lumpnum, polyobj_t *polysector, boolean isceiling, fixed_t fixedheight,
INT32 lightlevel, INT32 alpha, sector_t *FOFSector, FBITFIELD blend, extracolormap_t *planecolormap); INT32 lightlevel, INT32 alpha, sector_t *FOFSector, FBITFIELD blend, extracolormap_t *planecolormap);
#else #else
static void HWR_Add3DWater(lumpnum_t lumpnum, extrasubsector_t *xsub, fixed_t fixedheight, static void HWR_Add3DWater(lumpnum_t lumpnum, extrasubsector_t *xsub, fixed_t fixedheight,
@ -521,7 +521,7 @@ static UINT8 HWR_FogBlockAlpha(INT32 light, UINT32 color, UINT32 fadecolor) // L
// -----------------+ // -----------------+
// HWR_RenderPlane : Render a floor or ceiling convex polygon // HWR_RenderPlane : Render a floor or ceiling convex polygon
// -----------------+ // -----------------+
static void HWR_RenderPlane(sector_t *sector, extrasubsector_t *xsub, fixed_t fixedheight, static void HWR_RenderPlane(sector_t *sector, extrasubsector_t *xsub, boolean isceiling, fixed_t fixedheight,
FBITFIELD PolyFlags, INT32 lightlevel, lumpnum_t lumpnum, sector_t *FOFsector, UINT8 alpha, boolean fogplane, extracolormap_t *planecolormap) FBITFIELD PolyFlags, INT32 lightlevel, lumpnum_t lumpnum, sector_t *FOFsector, UINT8 alpha, boolean fogplane, extracolormap_t *planecolormap)
{ {
polyvertex_t * pv; polyvertex_t * pv;
@ -554,17 +554,16 @@ static void HWR_RenderPlane(sector_t *sector, extrasubsector_t *xsub, fixed_t fi
// Get the slope pointer to simplify future code // Get the slope pointer to simplify future code
if (FOFsector) if (FOFsector)
{ {
if (FOFsector->f_slope && FOFsector->floorheight == fixedheight) if (FOFsector->f_slope && !isceiling)
slope = FOFsector->f_slope; slope = FOFsector->f_slope;
else if (FOFsector->c_slope && FOFsector->ceilingheight == fixedheight) else if (FOFsector->c_slope && isceiling)
slope = FOFsector->c_slope; slope = FOFsector->c_slope;
} }
else else
{ {
// Use fixedheight to determine whether to check floor or ceiling because I hate my life if (gr_frontsector->f_slope && !isceiling)
if (gr_frontsector->f_slope && gr_frontsector->floorheight == fixedheight)
slope = gr_frontsector->f_slope; slope = gr_frontsector->f_slope;
else if (gr_frontsector->c_slope && gr_frontsector->ceilingheight == fixedheight) else if (gr_frontsector->c_slope && isceiling)
slope = gr_frontsector->c_slope; slope = gr_frontsector->c_slope;
} }
@ -638,12 +637,7 @@ static void HWR_RenderPlane(sector_t *sector, extrasubsector_t *xsub, fixed_t fi
if (FOFsector != NULL) if (FOFsector != NULL)
{ {
#ifdef ESLOPE if (!isceiling) // it's a floor
if ((slope && slope == FOFsector->f_slope)
|| fixedheight == FOFsector->floorheight) // it's a floor
#else
if (fixedheight == FOFsector->floorheight) // it's a floor
#endif
{ {
scrollx = FIXED_TO_FLOAT(FOFsector->floor_xoffs)/fflatsize; scrollx = FIXED_TO_FLOAT(FOFsector->floor_xoffs)/fflatsize;
scrolly = FIXED_TO_FLOAT(FOFsector->floor_yoffs)/fflatsize; scrolly = FIXED_TO_FLOAT(FOFsector->floor_yoffs)/fflatsize;
@ -658,12 +652,7 @@ static void HWR_RenderPlane(sector_t *sector, extrasubsector_t *xsub, fixed_t fi
} }
else if (gr_frontsector) else if (gr_frontsector)
{ {
#ifdef ESLOPE if (!isceiling) // it's a floor
if ((slope && slope == gr_frontsector->f_slope)
|| fixedheight == gr_frontsector->floorheight) // it's a floor
#else
if (fixedheight < dup_viewz) // it's a floor
#endif
{ {
scrollx = FIXED_TO_FLOAT(gr_frontsector->floor_xoffs)/fflatsize; scrollx = FIXED_TO_FLOAT(gr_frontsector->floor_xoffs)/fflatsize;
scrolly = FIXED_TO_FLOAT(gr_frontsector->floor_yoffs)/fflatsize; scrolly = FIXED_TO_FLOAT(gr_frontsector->floor_yoffs)/fflatsize;
@ -3111,7 +3100,7 @@ static inline void HWR_AddPolyObjectSegs(void)
} }
#ifdef POLYOBJECTS_PLANES #ifdef POLYOBJECTS_PLANES
static void HWR_RenderPolyObjectPlane(polyobj_t *polysector, fixed_t fixedheight, static void HWR_RenderPolyObjectPlane(polyobj_t *polysector, boolean isceiling, fixed_t fixedheight,
FBITFIELD blendmode, UINT8 lightlevel, lumpnum_t lumpnum, sector_t *FOFsector, FBITFIELD blendmode, UINT8 lightlevel, lumpnum_t lumpnum, sector_t *FOFsector,
UINT8 alpha, extracolormap_t *planecolormap) UINT8 alpha, extracolormap_t *planecolormap)
{ {
@ -3195,7 +3184,7 @@ static void HWR_RenderPolyObjectPlane(polyobj_t *polysector, fixed_t fixedheight
if (FOFsector != NULL) if (FOFsector != NULL)
{ {
if (fixedheight == FOFsector->floorheight) // it's a floor if (!isceiling) // it's a floor
{ {
scrollx = FIXED_TO_FLOAT(FOFsector->floor_xoffs)/fflatsize; scrollx = FIXED_TO_FLOAT(FOFsector->floor_xoffs)/fflatsize;
scrolly = FIXED_TO_FLOAT(FOFsector->floor_yoffs)/fflatsize; scrolly = FIXED_TO_FLOAT(FOFsector->floor_yoffs)/fflatsize;
@ -3210,7 +3199,7 @@ static void HWR_RenderPolyObjectPlane(polyobj_t *polysector, fixed_t fixedheight
} }
else if (gr_frontsector) else if (gr_frontsector)
{ {
if (fixedheight < dup_viewz) // it's a floor if (!isceiling) // it's a floor
{ {
scrollx = FIXED_TO_FLOAT(gr_frontsector->floor_xoffs)/fflatsize; scrollx = FIXED_TO_FLOAT(gr_frontsector->floor_xoffs)/fflatsize;
scrolly = FIXED_TO_FLOAT(gr_frontsector->floor_yoffs)/fflatsize; scrolly = FIXED_TO_FLOAT(gr_frontsector->floor_yoffs)/fflatsize;
@ -3303,13 +3292,13 @@ static void HWR_AddPolyObjectPlanes(void)
{ {
FSurfaceInfo Surf; FSurfaceInfo Surf;
FBITFIELD blendmode = HWR_TranstableToAlpha(po_ptrs[i]->translucency, &Surf); FBITFIELD blendmode = HWR_TranstableToAlpha(po_ptrs[i]->translucency, &Surf);
HWR_AddTransparentPolyobjectFloor(levelflats[polyobjsector->floorpic].lumpnum, po_ptrs[i], polyobjsector->floorheight, HWR_AddTransparentPolyobjectFloor(levelflats[polyobjsector->floorpic].lumpnum, po_ptrs[i], false, polyobjsector->floorheight,
polyobjsector->lightlevel, Surf.FlatColor.s.alpha, polyobjsector, blendmode, NULL); polyobjsector->lightlevel, Surf.FlatColor.s.alpha, polyobjsector, blendmode, NULL);
} }
else else
{ {
HWR_GetFlat(levelflats[polyobjsector->floorpic].lumpnum); HWR_GetFlat(levelflats[polyobjsector->floorpic].lumpnum);
HWR_RenderPolyObjectPlane(po_ptrs[i], polyobjsector->floorheight, PF_Occlude, HWR_RenderPolyObjectPlane(po_ptrs[i], false, polyobjsector->floorheight, PF_Occlude,
polyobjsector->lightlevel, levelflats[polyobjsector->floorpic].lumpnum, polyobjsector->lightlevel, levelflats[polyobjsector->floorpic].lumpnum,
polyobjsector, 255, NULL); polyobjsector, 255, NULL);
} }
@ -3325,13 +3314,13 @@ static void HWR_AddPolyObjectPlanes(void)
FBITFIELD blendmode; FBITFIELD blendmode;
memset(&Surf, 0x00, sizeof(Surf)); memset(&Surf, 0x00, sizeof(Surf));
blendmode = HWR_TranstableToAlpha(po_ptrs[i]->translucency, &Surf); blendmode = HWR_TranstableToAlpha(po_ptrs[i]->translucency, &Surf);
HWR_AddTransparentPolyobjectFloor(levelflats[polyobjsector->ceilingpic].lumpnum, po_ptrs[i], polyobjsector->ceilingheight, HWR_AddTransparentPolyobjectFloor(levelflats[polyobjsector->ceilingpic].lumpnum, po_ptrs[i], true, polyobjsector->ceilingheight,
polyobjsector->lightlevel, Surf.FlatColor.s.alpha, polyobjsector, blendmode, NULL); polyobjsector->lightlevel, Surf.FlatColor.s.alpha, polyobjsector, blendmode, NULL);
} }
else else
{ {
HWR_GetFlat(levelflats[polyobjsector->ceilingpic].lumpnum); HWR_GetFlat(levelflats[polyobjsector->ceilingpic].lumpnum);
HWR_RenderPolyObjectPlane(po_ptrs[i], polyobjsector->ceilingheight, PF_Occlude, HWR_RenderPolyObjectPlane(po_ptrs[i], true, polyobjsector->ceilingheight, PF_Occlude,
polyobjsector->lightlevel, levelflats[polyobjsector->floorpic].lumpnum, polyobjsector->lightlevel, levelflats[polyobjsector->floorpic].lumpnum,
polyobjsector, 255, NULL); polyobjsector, 255, NULL);
} }
@ -3485,7 +3474,7 @@ static void HWR_Subsector(size_t num)
if (sub->validcount != validcount) if (sub->validcount != validcount)
{ {
HWR_GetFlat(levelflats[gr_frontsector->floorpic].lumpnum); HWR_GetFlat(levelflats[gr_frontsector->floorpic].lumpnum);
HWR_RenderPlane(gr_frontsector, &extrasubsectors[num], HWR_RenderPlane(gr_frontsector, &extrasubsectors[num], false,
// Hack to make things continue to work around slopes. // Hack to make things continue to work around slopes.
locFloorHeight == cullFloorHeight ? locFloorHeight : gr_frontsector->floorheight, locFloorHeight == cullFloorHeight ? locFloorHeight : gr_frontsector->floorheight,
// We now return you to your regularly scheduled rendering. // We now return you to your regularly scheduled rendering.
@ -3507,7 +3496,7 @@ static void HWR_Subsector(size_t num)
if (sub->validcount != validcount) if (sub->validcount != validcount)
{ {
HWR_GetFlat(levelflats[gr_frontsector->ceilingpic].lumpnum); HWR_GetFlat(levelflats[gr_frontsector->ceilingpic].lumpnum);
HWR_RenderPlane(NULL, &extrasubsectors[num], HWR_RenderPlane(NULL, &extrasubsectors[num], true,
// Hack to make things continue to work around slopes. // Hack to make things continue to work around slopes.
locCeilingHeight == cullCeilingHeight ? locCeilingHeight : gr_frontsector->ceilingheight, locCeilingHeight == cullCeilingHeight ? locCeilingHeight : gr_frontsector->ceilingheight,
// We now return you to your regularly scheduled rendering. // We now return you to your regularly scheduled rendering.
@ -3576,6 +3565,7 @@ static void HWR_Subsector(size_t num)
HWR_AddTransparentFloor(0, HWR_AddTransparentFloor(0,
&extrasubsectors[num], &extrasubsectors[num],
false,
*rover->bottomheight, *rover->bottomheight,
*gr_frontsector->lightlist[light].lightlevel, *gr_frontsector->lightlist[light].lightlevel,
alpha, rover->master->frontsector, PF_Translucent|PF_NoTexture, alpha, rover->master->frontsector, PF_Translucent|PF_NoTexture,
@ -3593,6 +3583,7 @@ static void HWR_Subsector(size_t num)
#else #else
HWR_AddTransparentFloor(levelflats[*rover->bottompic].lumpnum, HWR_AddTransparentFloor(levelflats[*rover->bottompic].lumpnum,
&extrasubsectors[num], &extrasubsectors[num],
false,
*rover->bottomheight, *rover->bottomheight,
*gr_frontsector->lightlist[light].lightlevel, *gr_frontsector->lightlist[light].lightlevel,
rover->alpha-1 > 255 ? 255 : rover->alpha-1, rover->master->frontsector, PF_Translucent, rover->alpha-1 > 255 ? 255 : rover->alpha-1, rover->master->frontsector, PF_Translucent,
@ -3603,7 +3594,7 @@ static void HWR_Subsector(size_t num)
{ {
HWR_GetFlat(levelflats[*rover->bottompic].lumpnum); HWR_GetFlat(levelflats[*rover->bottompic].lumpnum);
light = R_GetPlaneLight(gr_frontsector, centerHeight, dup_viewz < cullHeight ? true : false); light = R_GetPlaneLight(gr_frontsector, centerHeight, dup_viewz < cullHeight ? true : false);
HWR_RenderPlane(NULL, &extrasubsectors[num], *rover->bottomheight, PF_Occlude, *gr_frontsector->lightlist[light].lightlevel, levelflats[*rover->bottompic].lumpnum, HWR_RenderPlane(NULL, &extrasubsectors[num], false, *rover->bottomheight, PF_Occlude, *gr_frontsector->lightlist[light].lightlevel, levelflats[*rover->bottompic].lumpnum,
rover->master->frontsector, 255, false, gr_frontsector->lightlist[light].extra_colormap); rover->master->frontsector, 255, false, gr_frontsector->lightlist[light].extra_colormap);
} }
} }
@ -3637,6 +3628,7 @@ static void HWR_Subsector(size_t num)
HWR_AddTransparentFloor(0, HWR_AddTransparentFloor(0,
&extrasubsectors[num], &extrasubsectors[num],
true,
*rover->topheight, *rover->topheight,
*gr_frontsector->lightlist[light].lightlevel, *gr_frontsector->lightlist[light].lightlevel,
alpha, rover->master->frontsector, PF_Translucent|PF_NoTexture, alpha, rover->master->frontsector, PF_Translucent|PF_NoTexture,
@ -3654,6 +3646,7 @@ static void HWR_Subsector(size_t num)
#else #else
HWR_AddTransparentFloor(levelflats[*rover->toppic].lumpnum, HWR_AddTransparentFloor(levelflats[*rover->toppic].lumpnum,
&extrasubsectors[num], &extrasubsectors[num],
true,
*rover->topheight, *rover->topheight,
*gr_frontsector->lightlist[light].lightlevel, *gr_frontsector->lightlist[light].lightlevel,
rover->alpha-1 > 255 ? 255 : rover->alpha-1, rover->master->frontsector, PF_Translucent, rover->alpha-1 > 255 ? 255 : rover->alpha-1, rover->master->frontsector, PF_Translucent,
@ -3665,7 +3658,7 @@ static void HWR_Subsector(size_t num)
{ {
HWR_GetFlat(levelflats[*rover->toppic].lumpnum); HWR_GetFlat(levelflats[*rover->toppic].lumpnum);
light = R_GetPlaneLight(gr_frontsector, centerHeight, dup_viewz < cullHeight ? true : false); light = R_GetPlaneLight(gr_frontsector, centerHeight, dup_viewz < cullHeight ? true : false);
HWR_RenderPlane(NULL, &extrasubsectors[num], *rover->topheight, PF_Occlude, *gr_frontsector->lightlist[light].lightlevel, levelflats[*rover->toppic].lumpnum, HWR_RenderPlane(NULL, &extrasubsectors[num], true, *rover->topheight, PF_Occlude, *gr_frontsector->lightlist[light].lightlevel, levelflats[*rover->toppic].lumpnum,
rover->master->frontsector, 255, false, gr_frontsector->lightlist[light].extra_colormap); rover->master->frontsector, 255, false, gr_frontsector->lightlist[light].extra_colormap);
} }
} }
@ -4592,6 +4585,7 @@ static void HWR_RenderWall(wallVert3D *wallVerts, FSurfaceInfo *pSurf, FBITFIE
typedef struct typedef struct
{ {
extrasubsector_t *xsub; extrasubsector_t *xsub;
boolean isceiling;
fixed_t fixedheight; fixed_t fixedheight;
INT32 lightlevel; INT32 lightlevel;
lumpnum_t lumpnum; lumpnum_t lumpnum;
@ -4609,6 +4603,7 @@ static planeinfo_t *planeinfo = NULL;
typedef struct typedef struct
{ {
polyobj_t *polysector; polyobj_t *polysector;
boolean isceiling;
fixed_t fixedheight; fixed_t fixedheight;
INT32 lightlevel; INT32 lightlevel;
lumpnum_t lumpnum; lumpnum_t lumpnum;
@ -4644,7 +4639,7 @@ static INT32 drawcount = 0;
#define MAX_TRANSPARENTFLOOR 512 #define MAX_TRANSPARENTFLOOR 512
// This will likely turn into a copy of HWR_Add3DWater and replace it. // This will likely turn into a copy of HWR_Add3DWater and replace it.
void HWR_AddTransparentFloor(lumpnum_t lumpnum, extrasubsector_t *xsub, void HWR_AddTransparentFloor(lumpnum_t lumpnum, extrasubsector_t *xsub, boolean isceiling,
fixed_t fixedheight, INT32 lightlevel, INT32 alpha, sector_t *FOFSector, FBITFIELD blend, boolean fogplane, extracolormap_t *planecolormap) fixed_t fixedheight, INT32 lightlevel, INT32 alpha, sector_t *FOFSector, FBITFIELD blend, boolean fogplane, extracolormap_t *planecolormap)
{ {
static size_t allocedplanes = 0; static size_t allocedplanes = 0;
@ -4659,6 +4654,7 @@ void HWR_AddTransparentFloor(lumpnum_t lumpnum, extrasubsector_t *xsub,
Z_Realloc(planeinfo, allocedplanes * sizeof (*planeinfo), PU_LEVEL, &planeinfo); Z_Realloc(planeinfo, allocedplanes * sizeof (*planeinfo), PU_LEVEL, &planeinfo);
} }
planeinfo[numplanes].isceiling = isceiling;
planeinfo[numplanes].fixedheight = fixedheight; planeinfo[numplanes].fixedheight = fixedheight;
planeinfo[numplanes].lightlevel = lightlevel; planeinfo[numplanes].lightlevel = lightlevel;
planeinfo[numplanes].lumpnum = lumpnum; planeinfo[numplanes].lumpnum = lumpnum;
@ -4669,12 +4665,13 @@ void HWR_AddTransparentFloor(lumpnum_t lumpnum, extrasubsector_t *xsub,
planeinfo[numplanes].fogplane = fogplane; planeinfo[numplanes].fogplane = fogplane;
planeinfo[numplanes].planecolormap = planecolormap; planeinfo[numplanes].planecolormap = planecolormap;
planeinfo[numplanes].drawcount = drawcount++; planeinfo[numplanes].drawcount = drawcount++;
numplanes++; numplanes++;
} }
// Adding this for now until I can create extrasubsector info for polyobjects // Adding this for now until I can create extrasubsector info for polyobjects
// When that happens it'll just be done through HWR_AddTransparentFloor and HWR_RenderPlane // When that happens it'll just be done through HWR_AddTransparentFloor and HWR_RenderPlane
void HWR_AddTransparentPolyobjectFloor(lumpnum_t lumpnum, polyobj_t *polysector, void HWR_AddTransparentPolyobjectFloor(lumpnum_t lumpnum, polyobj_t *polysector, boolean isceiling,
fixed_t fixedheight, INT32 lightlevel, INT32 alpha, sector_t *FOFSector, FBITFIELD blend, extracolormap_t *planecolormap) fixed_t fixedheight, INT32 lightlevel, INT32 alpha, sector_t *FOFSector, FBITFIELD blend, extracolormap_t *planecolormap)
{ {
static size_t allocedpolyplanes = 0; static size_t allocedpolyplanes = 0;
@ -4689,6 +4686,7 @@ void HWR_AddTransparentPolyobjectFloor(lumpnum_t lumpnum, polyobj_t *polysector,
Z_Realloc(polyplaneinfo, allocedpolyplanes * sizeof (*polyplaneinfo), PU_LEVEL, &polyplaneinfo); Z_Realloc(polyplaneinfo, allocedpolyplanes * sizeof (*polyplaneinfo), PU_LEVEL, &polyplaneinfo);
} }
polyplaneinfo[numpolyplanes].isceiling = isceiling;
polyplaneinfo[numpolyplanes].fixedheight = fixedheight; polyplaneinfo[numpolyplanes].fixedheight = fixedheight;
polyplaneinfo[numpolyplanes].lightlevel = lightlevel; polyplaneinfo[numpolyplanes].lightlevel = lightlevel;
polyplaneinfo[numpolyplanes].lumpnum = lumpnum; polyplaneinfo[numpolyplanes].lumpnum = lumpnum;
@ -4854,7 +4852,7 @@ static void HWR_CreateDrawNodes(void)
if (!(sortnode[sortindex[i]].plane->blend & PF_NoTexture)) if (!(sortnode[sortindex[i]].plane->blend & PF_NoTexture))
HWR_GetFlat(sortnode[sortindex[i]].plane->lumpnum); HWR_GetFlat(sortnode[sortindex[i]].plane->lumpnum);
HWR_RenderPlane(NULL, sortnode[sortindex[i]].plane->xsub, sortnode[sortindex[i]].plane->fixedheight, sortnode[sortindex[i]].plane->blend, sortnode[sortindex[i]].plane->lightlevel, HWR_RenderPlane(NULL, sortnode[sortindex[i]].plane->xsub, sortnode[sortindex[i]].plane->isceiling, sortnode[sortindex[i]].plane->fixedheight, sortnode[sortindex[i]].plane->blend, sortnode[sortindex[i]].plane->lightlevel,
sortnode[sortindex[i]].plane->lumpnum, sortnode[sortindex[i]].plane->FOFSector, sortnode[sortindex[i]].plane->alpha, sortnode[sortindex[i]].plane->fogplane, sortnode[sortindex[i]].plane->planecolormap); sortnode[sortindex[i]].plane->lumpnum, sortnode[sortindex[i]].plane->FOFSector, sortnode[sortindex[i]].plane->alpha, sortnode[sortindex[i]].plane->fogplane, sortnode[sortindex[i]].plane->planecolormap);
} }
else if (sortnode[sortindex[i]].polyplane) else if (sortnode[sortindex[i]].polyplane)
@ -4864,7 +4862,7 @@ static void HWR_CreateDrawNodes(void)
if (!(sortnode[sortindex[i]].polyplane->blend & PF_NoTexture)) if (!(sortnode[sortindex[i]].polyplane->blend & PF_NoTexture))
HWR_GetFlat(sortnode[sortindex[i]].polyplane->lumpnum); HWR_GetFlat(sortnode[sortindex[i]].polyplane->lumpnum);
HWR_RenderPolyObjectPlane(sortnode[sortindex[i]].polyplane->polysector, sortnode[sortindex[i]].polyplane->fixedheight, sortnode[sortindex[i]].polyplane->blend, sortnode[sortindex[i]].polyplane->lightlevel, HWR_RenderPolyObjectPlane(sortnode[sortindex[i]].polyplane->polysector, sortnode[sortindex[i]].polyplane->isceiling, sortnode[sortindex[i]].polyplane->fixedheight, sortnode[sortindex[i]].polyplane->blend, sortnode[sortindex[i]].polyplane->lightlevel,
sortnode[sortindex[i]].polyplane->lumpnum, sortnode[sortindex[i]].polyplane->FOFSector, sortnode[sortindex[i]].polyplane->alpha, sortnode[sortindex[i]].polyplane->planecolormap); sortnode[sortindex[i]].polyplane->lumpnum, sortnode[sortindex[i]].polyplane->FOFSector, sortnode[sortindex[i]].polyplane->alpha, sortnode[sortindex[i]].polyplane->planecolormap);
} }
else if (sortnode[sortindex[i]].wall) else if (sortnode[sortindex[i]].wall)
@ -6161,7 +6159,7 @@ static void HWR_Render3DWater(void)
for (i = 0; i < numfloors; i++) for (i = 0; i < numfloors; i++)
{ {
HWR_GetFlat(planeinfo[i].lumpnum); HWR_GetFlat(planeinfo[i].lumpnum);
HWR_RenderPlane(NULL, planeinfo[i].xsub, planeinfo[i].fixedheight, PF_Translucent, planeinfo[i].lightlevel, planeinfo[i].lumpnum, HWR_RenderPlane(NULL, planeinfo[i].xsub, planeinfo[i].isceiling, planeinfo[i].fixedheight, PF_Translucent, planeinfo[i].lightlevel, planeinfo[i].lumpnum,
planeinfo[i].FOFSector, planeinfo[i].alpha, planeinfo[i].fogplane, planeinfo[i].planecolormap); planeinfo[i].FOFSector, planeinfo[i].alpha, planeinfo[i].fogplane, planeinfo[i].planecolormap);
} }
numfloors = 0; numfloors = 0;