Fix issues related to texture scaling

This commit is contained in:
Lactozilla 2024-02-16 17:28:55 -03:00
parent 2747e30f8c
commit 98ba396dbc
9 changed files with 541 additions and 434 deletions

View file

@ -1034,6 +1034,191 @@ static boolean HWR_BlendMidtextureSurface(FSurfaceInfo *pSurf)
return true; return true;
} }
static void HWR_RenderMidtexture(INT32 gl_midtexture, float cliplow, float cliphigh, fixed_t worldtop, fixed_t worldbottom, fixed_t worldhigh, fixed_t worldlow, fixed_t worldtopslope, fixed_t worldbottomslope, fixed_t worldhighslope, fixed_t worldlowslope, UINT32 lightnum, FOutVector *inWallVerts)
{
FOutVector wallVerts[4];
FSurfaceInfo Surf;
Surf.PolyColor.s.alpha = 255;
// Determine if it's visible
if (!HWR_BlendMidtextureSurface(&Surf))
return;
fixed_t texheight = FixedDiv(textureheight[gl_midtexture], abs(gl_sidedef->scaley_mid));
INT32 repeats;
if (gl_sidedef->repeatcnt)
repeats = 1 + gl_sidedef->repeatcnt;
else if (gl_linedef->flags & ML_WRAPMIDTEX)
{
fixed_t high, low;
if (gl_frontsector->ceilingheight > gl_backsector->ceilingheight)
high = gl_backsector->ceilingheight;
else
high = gl_frontsector->ceilingheight;
if (gl_frontsector->floorheight > gl_backsector->floorheight)
low = gl_frontsector->floorheight;
else
low = gl_backsector->floorheight;
repeats = (high - low) / texheight;
if ((high - low) % texheight)
repeats++; // tile an extra time to fill the gap -- Monster Iestyn
}
else
repeats = 1;
GLMapTexture_t *grTex = HWR_GetTexture(gl_midtexture);
float xscale = FixedToFloat(gl_sidedef->scalex_mid);
float yscale = FixedToFloat(gl_sidedef->scaley_mid);
// SoM: a little note: popentop and popenbottom
// record the limits the texture can be displayed in.
// polytop and polybottom, are the ideal (i.e. unclipped)
// heights of the polygon, and h & l, are the final (clipped)
// poly coords.
fixed_t popentop, popenbottom, polytop, polybottom, lowcut, highcut;
fixed_t popentopslope, popenbottomslope, polytopslope, polybottomslope, lowcutslope, highcutslope;
// NOTE: With polyobjects, whenever you need to check the properties of the polyobject sector it belongs to,
// you must use the linedef's backsector to be correct
// From CB
if (gl_curline->polyseg)
{
// Change this when polyobjects support slopes
popentop = popentopslope = gl_curline->backsector->ceilingheight;
popenbottom = popenbottomslope = gl_curline->backsector->floorheight;
}
else
{
popentop = min(worldtop, worldhigh);
popenbottom = max(worldbottom, worldlow);
popentopslope = min(worldtopslope, worldhighslope);
popenbottomslope = max(worldbottomslope, worldlowslope);
}
// Find the wall's coordinates
fixed_t midtexheight = texheight * repeats;
fixed_t rowoffset = FixedDiv(gl_sidedef->rowoffset + gl_sidedef->offsety_mid, abs(gl_sidedef->scaley_mid));
// Texture is not skewed
if (gl_linedef->flags & ML_NOSKEW)
{
// Peg it to the floor
if (gl_linedef->flags & ML_MIDPEG)
{
polybottom = max(gl_frontsector->floorheight, gl_backsector->floorheight) + rowoffset;
polytop = polybottom + midtexheight;
}
// Peg it to the ceiling
else
{
polytop = min(gl_frontsector->ceilingheight, gl_backsector->ceilingheight) + rowoffset;
polybottom = polytop - midtexheight;
}
// The right side's coordinates are the the same as the left side
polytopslope = polytop;
polybottomslope = polybottom;
}
// Skew the texture, but peg it to the floor
else if (gl_linedef->flags & ML_MIDPEG)
{
polybottom = popenbottom + rowoffset;
polytop = polybottom + midtexheight;
polybottomslope = popenbottomslope + rowoffset;
polytopslope = polybottomslope + midtexheight;
}
// Skew it according to the ceiling's slope
else
{
polytop = popentop + rowoffset;
polybottom = polytop - midtexheight;
polytopslope = popentopslope + rowoffset;
polybottomslope = polytopslope - midtexheight;
}
// The cut-off values of a linedef can always be constant, since every line has an absoulute front and or back sector
if (gl_curline->polyseg)
{
lowcut = polybottom;
highcut = polytop;
lowcutslope = polybottomslope;
highcutslope = polytopslope;
}
else
{
lowcut = popenbottom;
highcut = popentop;
lowcutslope = popenbottomslope;
highcutslope = popentopslope;
}
fixed_t h = min(highcut, polytop);
fixed_t l = max(polybottom, lowcut);
fixed_t hS = min(highcutslope, polytopslope);
fixed_t lS = max(polybottomslope, lowcutslope);
// PEGGING
fixed_t texturevpeg, texturevpegslope;
if (gl_linedef->flags & ML_MIDPEG)
{
texturevpeg = midtexheight - h + polybottom;
texturevpegslope = midtexheight - hS + polybottomslope;
}
else
{
texturevpeg = polytop - h;
texturevpegslope = polytopslope - hS;
}
memcpy(wallVerts, inWallVerts, sizeof(wallVerts));
// Left side
wallVerts[3].t = texturevpeg * yscale * grTex->scaleY;
wallVerts[0].t = (h - l + texturevpeg) * yscale * grTex->scaleY;
wallVerts[0].s = wallVerts[3].s = ((cliplow * xscale) + gl_sidedef->textureoffset + gl_sidedef->offsetx_mid) * grTex->scaleX;
// Right side
wallVerts[2].t = texturevpegslope * yscale * grTex->scaleY;
wallVerts[1].t = (hS - lS + texturevpegslope) * yscale * grTex->scaleY;
wallVerts[2].s = wallVerts[1].s = ((cliphigh * xscale) + gl_sidedef->textureoffset + gl_sidedef->offsetx_mid) * grTex->scaleX;
// set top/bottom coords
// Take the texture peg into account, rather than changing the offsets past
// where the polygon might not be.
wallVerts[3].y = FIXED_TO_FLOAT(h);
wallVerts[0].y = FIXED_TO_FLOAT(l);
wallVerts[2].y = FIXED_TO_FLOAT(hS);
wallVerts[1].y = FIXED_TO_FLOAT(lS);
// TODO: Actually use the surface's flags so that I don't have to do this
FUINT blendmode = Surf.PolyFlags;
// Render midtextures on two-sided lines with a z-buffer offset.
// This will cause the midtexture appear on top, if a FOF overlaps with it.
blendmode |= PF_Decal;
extracolormap_t *colormap = gl_frontsector->extra_colormap;
if (gl_frontsector->numlights)
{
if (!(blendmode & PF_Masked))
HWR_SplitWall(gl_frontsector, wallVerts, gl_midtexture, &Surf, FOF_TRANSLUCENT, NULL, blendmode);
else
HWR_SplitWall(gl_frontsector, wallVerts, gl_midtexture, &Surf, FOF_CUTLEVEL, NULL, blendmode);
}
else if (!(blendmode & PF_Masked))
HWR_AddTransparentWall(wallVerts, &Surf, gl_midtexture, blendmode, false, lightnum, colormap);
else
HWR_ProjectWall(wallVerts, &Surf, blendmode, lightnum, colormap);
}
// //
// HWR_ProcessSeg // HWR_ProcessSeg
// A portion or all of a wall segment will be drawn, from startfrac to endfrac, // A portion or all of a wall segment will be drawn, from startfrac to endfrac,
@ -1105,9 +1290,8 @@ static void HWR_ProcessSeg(void) // Sort of like GLWall::Process in GZDoom
wallVerts[2].z = wallVerts[1].z = ve.y; wallVerts[2].z = wallVerts[1].z = ve.y;
// x offset the texture // x offset the texture
fixed_t texturehpeg = gl_sidedef->textureoffset + gl_curline->offset; float cliplow = (float)gl_curline->offset;
float cliplow = (float)texturehpeg; float cliphigh = cliplow + (gl_curline->flength * FRACUNIT);
float cliphigh = (float)(texturehpeg + (gl_curline->flength*FRACUNIT));
FUINT lightnum = HWR_CalcWallLight(gl_frontsector->lightlevel, vs.x, vs.y, ve.x, ve.y); FUINT lightnum = HWR_CalcWallLight(gl_frontsector->lightlevel, vs.x, vs.y, ve.x, ve.y);
extracolormap_t *colormap = gl_frontsector->extra_colormap; extracolormap_t *colormap = gl_frontsector->extra_colormap;
@ -1122,6 +1306,7 @@ static void HWR_ProcessSeg(void) // Sort of like GLWall::Process in GZDoom
if (gl_backsector) if (gl_backsector)
{ {
INT32 gl_toptexture = 0, gl_bottomtexture = 0; INT32 gl_toptexture = 0, gl_bottomtexture = 0;
fixed_t texturevpeg; fixed_t texturevpeg;
SLOPEPARAMS(gl_backsector->c_slope, worldhigh, worldhighslope, gl_backsector->ceilingheight) SLOPEPARAMS(gl_backsector->c_slope, worldhigh, worldhighslope, gl_backsector->ceilingheight)
@ -1151,30 +1336,46 @@ static void HWR_ProcessSeg(void) // Sort of like GLWall::Process in GZDoom
if ((worldhighslope < worldtopslope || worldhigh < worldtop) && gl_toptexture) if ((worldhighslope < worldtopslope || worldhigh < worldtop) && gl_toptexture)
{ {
grTex = HWR_GetTexture(gl_toptexture); grTex = HWR_GetTexture(gl_toptexture);
xscale = FixedToFloat(gl_sidedef->scalex_top); xscale = FixedToFloat(abs(gl_sidedef->scalex_top));
yscale = FixedToFloat(gl_sidedef->scaley_top); yscale = FixedToFloat(abs(gl_sidedef->scaley_top));
fixed_t texheight = FixedDiv(textureheight[gl_toptexture], gl_sidedef->scaley_top); fixed_t offsetx_top = gl_sidedef->textureoffset + gl_sidedef->offsetx_top;
float left = cliplow * xscale;
float right = cliphigh * xscale;
if (gl_sidedef->scalex_top < 0)
{
left = -left;
right = -right;
offsetx_top = -offsetx_top;
}
fixed_t texheight = textureheight[gl_toptexture];
fixed_t texheightscaled = FixedDiv(texheight, abs(gl_sidedef->scaley_top));
// PEGGING // PEGGING
// FIXME: This is probably not correct?
if (gl_linedef->flags & ML_DONTPEGTOP) if (gl_linedef->flags & ML_DONTPEGTOP)
texturevpeg = 0; texturevpeg = 0;
else if (gl_linedef->flags & ML_SKEWTD) else if (gl_linedef->flags & ML_SKEWTD)
texturevpeg = worldhigh + texheight - worldtop; texturevpeg = worldhigh + texheight - worldtop;
else else
texturevpeg = gl_backsector->ceilingheight + texheight - gl_frontsector->ceilingheight; texturevpeg = gl_backsector->ceilingheight + texheightscaled - gl_frontsector->ceilingheight;
texturevpeg *= yscale; texturevpeg *= yscale;
if (gl_sidedef->scaley_top < 0)
texturevpeg -= gl_sidedef->rowoffset + gl_sidedef->offsety_top;
else
texturevpeg += gl_sidedef->rowoffset + gl_sidedef->offsety_top; texturevpeg += gl_sidedef->rowoffset + gl_sidedef->offsety_top;
// This is so that it doesn't overflow and screw up the wall, it doesn't need to go higher than the texture's height anyway // This is so that it doesn't overflow and screw up the wall, it doesn't need to go higher than the texture's height anyway
texturevpeg %= texheight; texturevpeg %= texheightscaled;
wallVerts[3].t = wallVerts[2].t = texturevpeg * grTex->scaleY; wallVerts[3].t = wallVerts[2].t = texturevpeg * grTex->scaleY;
wallVerts[0].t = wallVerts[1].t = (texturevpeg + (gl_frontsector->ceilingheight - gl_backsector->ceilingheight) * yscale) * grTex->scaleY; wallVerts[0].t = wallVerts[1].t = (texturevpeg + (gl_frontsector->ceilingheight - gl_backsector->ceilingheight) * yscale) * grTex->scaleY;
wallVerts[0].s = wallVerts[3].s = ((cliplow * xscale) + gl_sidedef->offsetx_top) * grTex->scaleX; wallVerts[0].s = wallVerts[3].s = (left + offsetx_top) * grTex->scaleX;
wallVerts[2].s = wallVerts[1].s = ((cliphigh * xscale) + gl_sidedef->offsetx_top) * grTex->scaleX; wallVerts[2].s = wallVerts[1].s = (right + offsetx_top) * grTex->scaleX;
// Adjust t value for sloped walls // Adjust t value for sloped walls
if (!(gl_linedef->flags & ML_SKEWTD)) if (!(gl_linedef->flags & ML_SKEWTD))
@ -1199,6 +1400,14 @@ static void HWR_ProcessSeg(void) // Sort of like GLWall::Process in GZDoom
wallVerts[2].t = wallVerts[1].t - (worldtopslope - worldhighslope) * yscale * grTex->scaleY; wallVerts[2].t = wallVerts[1].t - (worldtopslope - worldhighslope) * yscale * grTex->scaleY;
} }
if (gl_sidedef->scaley_top < 0)
{
wallVerts[0].t = -wallVerts[0].t;
wallVerts[1].t = -wallVerts[1].t;
wallVerts[2].t = -wallVerts[2].t;
wallVerts[3].t = -wallVerts[3].t;
}
// set top/bottom coords // set top/bottom coords
wallVerts[3].y = FIXED_TO_FLOAT(worldtop); wallVerts[3].y = FIXED_TO_FLOAT(worldtop);
wallVerts[0].y = FIXED_TO_FLOAT(worldhigh); wallVerts[0].y = FIXED_TO_FLOAT(worldhigh);
@ -1217,8 +1426,19 @@ static void HWR_ProcessSeg(void) // Sort of like GLWall::Process in GZDoom
if ((worldlowslope > worldbottomslope || worldlow > worldbottom) && gl_bottomtexture) if ((worldlowslope > worldbottomslope || worldlow > worldbottom) && gl_bottomtexture)
{ {
grTex = HWR_GetTexture(gl_bottomtexture); grTex = HWR_GetTexture(gl_bottomtexture);
xscale = FixedToFloat(gl_sidedef->scalex_bottom); xscale = FixedToFloat(abs(gl_sidedef->scalex_bottom));
yscale = FixedToFloat(gl_sidedef->scaley_bottom); yscale = FixedToFloat(abs(gl_sidedef->scaley_bottom));
fixed_t offsetx_bottom = gl_sidedef->textureoffset + gl_sidedef->offsetx_bottom;
float left = cliplow * xscale;
float right = cliphigh * xscale;
if (gl_sidedef->scalex_bottom < 0)
{
left = -left;
right = -right;
offsetx_bottom = -offsetx_bottom;
}
// PEGGING // PEGGING
if (!(gl_linedef->flags & ML_DONTPEGBOTTOM)) if (!(gl_linedef->flags & ML_DONTPEGBOTTOM))
@ -1230,15 +1450,18 @@ static void HWR_ProcessSeg(void) // Sort of like GLWall::Process in GZDoom
texturevpeg *= yscale; texturevpeg *= yscale;
if (gl_sidedef->scaley_bottom < 0)
texturevpeg -= gl_sidedef->rowoffset + gl_sidedef->offsety_bottom;
else
texturevpeg += gl_sidedef->rowoffset + gl_sidedef->offsety_bottom; texturevpeg += gl_sidedef->rowoffset + gl_sidedef->offsety_bottom;
// This is so that it doesn't overflow and screw up the wall, it doesn't need to go higher than the texture's height anyway // This is so that it doesn't overflow and screw up the wall, it doesn't need to go higher than the texture's height anyway
texturevpeg %= FixedDiv(textureheight[gl_bottomtexture], gl_sidedef->scaley_bottom); texturevpeg %= FixedDiv(textureheight[gl_bottomtexture], abs(gl_sidedef->scaley_bottom));
wallVerts[3].t = wallVerts[2].t = texturevpeg * grTex->scaleY; wallVerts[3].t = wallVerts[2].t = texturevpeg * grTex->scaleY;
wallVerts[0].t = wallVerts[1].t = (texturevpeg + (gl_backsector->floorheight - gl_frontsector->floorheight) * yscale) * grTex->scaleY; wallVerts[0].t = wallVerts[1].t = (texturevpeg + (gl_backsector->floorheight - gl_frontsector->floorheight) * yscale) * grTex->scaleY;
wallVerts[0].s = wallVerts[3].s = ((cliplow * xscale) + gl_sidedef->offsetx_bottom) * grTex->scaleX; wallVerts[0].s = wallVerts[3].s = (left + offsetx_bottom) * grTex->scaleX;
wallVerts[2].s = wallVerts[1].s = ((cliphigh * xscale) + gl_sidedef->offsetx_bottom) * grTex->scaleX; wallVerts[2].s = wallVerts[1].s = (right + offsetx_bottom) * grTex->scaleX;
// Adjust t value for sloped walls // Adjust t value for sloped walls
if (!(gl_linedef->flags & ML_SKEWTD)) if (!(gl_linedef->flags & ML_SKEWTD))
@ -1262,6 +1485,14 @@ static void HWR_ProcessSeg(void) // Sort of like GLWall::Process in GZDoom
wallVerts[1].t = (texturevpeg + (worldlowslope - worldbottomslope) * yscale) * grTex->scaleY; wallVerts[1].t = (texturevpeg + (worldlowslope - worldbottomslope) * yscale) * grTex->scaleY;
} }
if (gl_sidedef->scaley_bottom < 0)
{
wallVerts[0].t = -wallVerts[0].t;
wallVerts[1].t = -wallVerts[1].t;
wallVerts[2].t = -wallVerts[2].t;
wallVerts[3].t = -wallVerts[3].t;
}
// set top/bottom coords // set top/bottom coords
wallVerts[3].y = FIXED_TO_FLOAT(worldlow); wallVerts[3].y = FIXED_TO_FLOAT(worldlow);
wallVerts[0].y = FIXED_TO_FLOAT(worldbottom); wallVerts[0].y = FIXED_TO_FLOAT(worldbottom);
@ -1276,196 +1507,14 @@ static void HWR_ProcessSeg(void) // Sort of like GLWall::Process in GZDoom
HWR_ProjectWall(wallVerts, &Surf, PF_Masked, lightnum, colormap); HWR_ProjectWall(wallVerts, &Surf, PF_Masked, lightnum, colormap);
} }
// Render midtexture if there's one. Determine if it's visible first, though // Render midtexture if there's one
if (gl_midtexture && HWR_BlendMidtextureSurface(&Surf)) if (gl_midtexture)
{ HWR_RenderMidtexture(gl_midtexture, cliplow, cliphigh, worldtop, worldbottom, worldhigh, worldlow, worldtopslope, worldbottomslope, worldhighslope, worldlowslope, lightnum, wallVerts);
sector_t *front, *back;
fixed_t texheight = FixedDiv(textureheight[gl_midtexture], gl_sidedef->scaley_mid);
INT32 repeats;
if (gl_linedef->frontsector->heightsec != -1)
front = &sectors[gl_linedef->frontsector->heightsec];
else
front = gl_linedef->frontsector;
if (gl_linedef->backsector->heightsec != -1)
back = &sectors[gl_linedef->backsector->heightsec];
else
back = gl_linedef->backsector;
if (gl_sidedef->repeatcnt)
repeats = 1 + gl_sidedef->repeatcnt;
else if (gl_linedef->flags & ML_WRAPMIDTEX)
{
fixed_t high, low;
if (front->ceilingheight > back->ceilingheight)
high = back->ceilingheight;
else
high = front->ceilingheight;
if (front->floorheight > back->floorheight)
low = front->floorheight;
else
low = back->floorheight;
repeats = (high - low) / texheight;
if ((high - low) % texheight)
repeats++; // tile an extra time to fill the gap -- Monster Iestyn
}
else
repeats = 1;
grTex = HWR_GetTexture(gl_midtexture);
xscale = FixedToFloat(gl_sidedef->scalex_mid);
yscale = FixedToFloat(gl_sidedef->scaley_mid);
// SoM: a little note: popentop and popenbottom
// record the limits the texture can be displayed in.
// polytop and polybottom, are the ideal (i.e. unclipped)
// heights of the polygon, and h & l, are the final (clipped)
// poly coords.
fixed_t popentop, popenbottom, polytop, polybottom, lowcut, highcut;
fixed_t popentopslope, popenbottomslope, polytopslope, polybottomslope, lowcutslope, highcutslope;
// NOTE: With polyobjects, whenever you need to check the properties of the polyobject sector it belongs to,
// you must use the linedef's backsector to be correct
// From CB
if (gl_curline->polyseg)
{
popentop = popentopslope = back->ceilingheight;
popenbottom = popenbottomslope = back->floorheight;
}
else
{
popentop = min(worldtop, worldhigh);
popenbottom = max(worldbottom, worldlow);
popentopslope = min(worldtopslope, worldhighslope);
popenbottomslope = max(worldbottomslope, worldlowslope);
}
// Find the wall's coordinates
fixed_t midtexheight = texheight * repeats;
fixed_t rowoffset = FixedDiv(gl_sidedef->rowoffset + gl_sidedef->offsety_mid, gl_sidedef->scaley_mid);
// Texture is not skewed
if (gl_linedef->flags & ML_NOSKEW)
{
// Peg it to the floor
if (gl_linedef->flags & ML_MIDPEG)
{
polybottom = max(front->floorheight, back->floorheight) + rowoffset;
polytop = polybottom + midtexheight;
}
// Peg it to the ceiling
else
{
polytop = min(front->ceilingheight, back->ceilingheight) + rowoffset;
polybottom = polytop - midtexheight;
}
// The right side's coordinates are the the same as the left side
polytopslope = polytop;
polybottomslope = polybottom;
}
// Skew the texture, but peg it to the floor
else if (gl_linedef->flags & ML_MIDPEG)
{
polybottom = popenbottom + rowoffset;
polytop = polybottom + midtexheight;
polybottomslope = popenbottomslope + rowoffset;
polytopslope = polybottomslope + midtexheight;
}
// Skew it according to the ceiling's slope
else
{
polytop = popentop + rowoffset;
polybottom = polytop - midtexheight;
polytopslope = popentopslope + rowoffset;
polybottomslope = polytopslope - midtexheight;
}
// CB
// NOTE: With polyobjects, whenever you need to check the properties of the polyobject sector it belongs to,
// you must use the linedef's backsector to be correct
if (gl_curline->polyseg)
{
lowcut = polybottom;
highcut = polytop;
lowcutslope = polybottomslope;
highcutslope = polytopslope;
}
else
{
// The cut-off values of a linedef can always be constant, since every line has an absoulute front and or back sector
lowcut = popenbottom;
highcut = popentop;
lowcutslope = popenbottomslope;
highcutslope = popentopslope;
}
h = min(highcut, polytop);
l = max(polybottom, lowcut);
hS = min(highcutslope, polytopslope);
lS = max(polybottomslope, lowcutslope);
// PEGGING
fixed_t texturevpegslope;
if (gl_linedef->flags & ML_MIDPEG)
{
texturevpeg = midtexheight - h + polybottom;
texturevpegslope = midtexheight - hS + polybottomslope;
}
else
{
texturevpeg = polytop - h;
texturevpegslope = polytopslope - hS;
}
// Left side
wallVerts[3].t = texturevpeg * yscale * grTex->scaleY;
wallVerts[0].t = (h - l + texturevpeg) * yscale * grTex->scaleY;
wallVerts[0].s = wallVerts[3].s = ((cliplow * xscale) + gl_sidedef->offsetx_mid) * grTex->scaleX;
// Right side
wallVerts[2].t = texturevpegslope * yscale * grTex->scaleY;
wallVerts[1].t = (hS - lS + texturevpegslope) * yscale * grTex->scaleY;
wallVerts[2].s = wallVerts[1].s = ((cliphigh * xscale) + gl_sidedef->offsetx_mid) * grTex->scaleX;
// set top/bottom coords
// Take the texture peg into account, rather than changing the offsets past
// where the polygon might not be.
wallVerts[3].y = FIXED_TO_FLOAT(h);
wallVerts[0].y = FIXED_TO_FLOAT(l);
wallVerts[2].y = FIXED_TO_FLOAT(hS);
wallVerts[1].y = FIXED_TO_FLOAT(lS);
// TODO: Actually use the surface's flags so that I don't have to do this
FUINT blendmode = Surf.PolyFlags;
// Render midtextures on two-sided lines with a z-buffer offset.
// This will cause the midtexture appear on top, if a FOF overlaps with it.
blendmode |= PF_Decal;
if (gl_frontsector->numlights)
{
if (!(blendmode & PF_Masked))
HWR_SplitWall(gl_frontsector, wallVerts, gl_midtexture, &Surf, FOF_TRANSLUCENT, NULL, blendmode);
else
HWR_SplitWall(gl_frontsector, wallVerts, gl_midtexture, &Surf, FOF_CUTLEVEL, NULL, blendmode);
}
else if (!(blendmode & PF_Masked))
HWR_AddTransparentWall(wallVerts, &Surf, gl_midtexture, blendmode, false, lightnum, colormap);
else
HWR_ProjectWall(wallVerts, &Surf, blendmode, lightnum, colormap);
}
// Sky culling
// No longer so much a mess as before!
if (!gl_curline->polyseg) // Don't do it for polyobjects if (!gl_curline->polyseg) // Don't do it for polyobjects
{ {
// Sky culling
// No longer so much a mess as before!
if (gl_frontsector->ceilingpic == skyflatnum if (gl_frontsector->ceilingpic == skyflatnum
&& gl_backsector->ceilingpic != skyflatnum) // don't cull if back sector is also sky && gl_backsector->ceilingpic != skyflatnum) // don't cull if back sector is also sky
{ {
@ -1509,8 +1558,8 @@ static void HWR_ProcessSeg(void) // Sort of like GLWall::Process in GZDoom
wallVerts[3].t = wallVerts[2].t = texturevpeg * grTex->scaleY; wallVerts[3].t = wallVerts[2].t = texturevpeg * grTex->scaleY;
wallVerts[0].t = wallVerts[1].t = (texturevpeg + gl_frontsector->ceilingheight - gl_frontsector->floorheight) * grTex->scaleY; wallVerts[0].t = wallVerts[1].t = (texturevpeg + gl_frontsector->ceilingheight - gl_frontsector->floorheight) * grTex->scaleY;
wallVerts[0].s = wallVerts[3].s = ((cliplow * xscale) + gl_sidedef->offsetx_mid) * grTex->scaleX; wallVerts[0].s = wallVerts[3].s = ((cliplow * xscale) + gl_sidedef->textureoffset + gl_sidedef->offsetx_mid) * grTex->scaleX;
wallVerts[2].s = wallVerts[1].s = ((cliphigh * xscale) + gl_sidedef->offsetx_mid) * grTex->scaleX; wallVerts[2].s = wallVerts[1].s = ((cliphigh * xscale) + gl_sidedef->textureoffset + gl_sidedef->offsetx_mid) * grTex->scaleX;
// Texture correction for slopes // Texture correction for slopes
if (gl_linedef->flags & ML_NOSKEW) { if (gl_linedef->flags & ML_NOSKEW) {
@ -1573,8 +1622,9 @@ static void HWR_ProcessSeg(void) // Sort of like GLWall::Process in GZDoom
// Used for height comparisons and etc across FOFs and slopes // Used for height comparisons and etc across FOFs and slopes
fixed_t high1, highslope1, low1, lowslope1; fixed_t high1, highslope1, low1, lowslope1;
fixed_t texturehpeg = gl_sidedef->textureoffset + gl_sidedef->offsetx_mid;
INT32 texnum; INT32 texnum;
line_t * newline = NULL; // Multi-Property FOF
lowcut = max(worldbottom, worldlow); lowcut = max(worldbottom, worldlow);
highcut = min(worldtop, worldhigh); highcut = min(worldtop, worldhigh);
@ -1608,16 +1658,14 @@ static void HWR_ProcessSeg(void) // Sort of like GLWall::Process in GZDoom
if ((high1 < lowcut && highslope1 < lowcutslope) || (low1 > highcut && lowslope1 > highcutslope)) if ((high1 < lowcut && highslope1 < lowcutslope) || (low1 > highcut && lowslope1 > highcutslope))
continue; continue;
side_t *side = &sides[rover->master->sidenum[0]]; side_t *side = R_GetFFloorSide(gl_curline, rover);
boolean do_texture_skew; boolean do_texture_skew;
boolean dont_peg_bottom; boolean dont_peg_bottom;
if (rover->master->flags & ML_TFERLINE) if (rover->master->flags & ML_TFERLINE)
{ {
size_t linenum = gl_curline->linedef-gl_backsector->lines[0]; line_t *newline = R_GetFFloorLine(gl_curline, rover);
newline = rover->master->frontsector->lines[0] + linenum;
side = &sides[newline->sidenum[0]];
do_texture_skew = newline->flags & ML_SKEWTD; do_texture_skew = newline->flags & ML_SKEWTD;
dont_peg_bottom = newline->flags & ML_DONTPEGBOTTOM; dont_peg_bottom = newline->flags & ML_DONTPEGBOTTOM;
} }
@ -1695,14 +1743,14 @@ static void HWR_ProcessSeg(void) // Sort of like GLWall::Process in GZDoom
} }
} }
wallVerts[0].s = wallVerts[3].s = ((cliplow * xscale) + side->offsetx_mid) * grTex->scaleX; wallVerts[0].s = wallVerts[3].s = ((cliplow * xscale) + texturehpeg + side->offsetx_mid) * grTex->scaleX;
wallVerts[2].s = wallVerts[1].s = ((cliphigh * xscale) + side->offsetx_mid) * grTex->scaleX; wallVerts[2].s = wallVerts[1].s = ((cliphigh * xscale) + texturehpeg + side->offsetx_mid) * grTex->scaleX;
} }
FBITFIELD blendmode;
if (rover->fofflags & FOF_FOG) if (rover->fofflags & FOF_FOG)
{ {
FBITFIELD blendmode;
blendmode = PF_Fog|PF_NoTexture; blendmode = PF_Fog|PF_NoTexture;
lightnum = HWR_CalcWallLight(rover->master->frontsector->lightlevel, vs.x, vs.y, ve.x, ve.y); lightnum = HWR_CalcWallLight(rover->master->frontsector->lightlevel, vs.x, vs.y, ve.x, ve.y);
@ -1717,7 +1765,7 @@ static void HWR_ProcessSeg(void) // Sort of like GLWall::Process in GZDoom
} }
else else
{ {
FBITFIELD blendmode = PF_Masked; blendmode = PF_Masked;
if ((rover->fofflags & FOF_TRANSLUCENT && !(rover->fofflags & FOF_SPLAT)) || rover->blend) if ((rover->fofflags & FOF_TRANSLUCENT && !(rover->fofflags & FOF_SPLAT)) || rover->blend)
{ {
@ -1765,13 +1813,21 @@ static void HWR_ProcessSeg(void) // Sort of like GLWall::Process in GZDoom
if ((high1 < lowcut && highslope1 < lowcutslope) || (low1 > highcut && lowslope1 > highcutslope)) if ((high1 < lowcut && highslope1 < lowcutslope) || (low1 > highcut && lowslope1 > highcutslope))
continue; continue;
side_t *side = &sides[rover->master->sidenum[0]]; side_t *side = R_GetFFloorSide(gl_curline, rover);
boolean do_texture_skew;
boolean dont_peg_bottom;
if (rover->master->flags & ML_TFERLINE) if (rover->master->flags & ML_TFERLINE)
{ {
size_t linenum = gl_curline->linedef-gl_backsector->lines[0]; line_t *newline = R_GetFFloorLine(gl_curline, rover);
newline = rover->master->frontsector->lines[0] + linenum; do_texture_skew = newline->flags & ML_SKEWTD;
side = &sides[newline->sidenum[0]]; dont_peg_bottom = newline->flags & ML_DONTPEGBOTTOM;
}
else
{
do_texture_skew = rover->master->flags & ML_SKEWTD;
dont_peg_bottom = gl_curline->linedef->flags & ML_DONTPEGBOTTOM;
} }
texnum = R_GetTextureNum(side->midtexture); texnum = R_GetTextureNum(side->midtexture);
@ -1808,23 +1864,49 @@ static void HWR_ProcessSeg(void) // Sort of like GLWall::Process in GZDoom
} }
else else
{ {
// Wow, how was this missing from OpenGL for so long?
// ...Oh well, anyway, Lower Unpegged now changes pegging of FOFs like in software
// -- Monster Iestyn 26/06/18
fixed_t texturevpeg = side->rowoffset + side->offsety_mid;
grTex = HWR_GetTexture(texnum); grTex = HWR_GetTexture(texnum);
xscale = FixedToFloat(side->scalex_mid); xscale = FixedToFloat(side->scalex_mid);
yscale = FixedToFloat(side->scaley_mid); yscale = FixedToFloat(side->scaley_mid);
fixed_t diff = (*rover->topheight - h) * yscale; if (!do_texture_skew) // no skewing
{
if (dont_peg_bottom)
texturevpeg -= (*rover->topheight - *rover->bottomheight) * yscale;
wallVerts[3].t = wallVerts[2].t = (diff + side->rowoffset + side->offsety_mid) * grTex->scaleY; wallVerts[3].t = (((*rover->topheight - h) * yscale) + texturevpeg) * grTex->scaleY;
wallVerts[0].t = wallVerts[1].t = (((h - l) * yscale) + (diff + side->rowoffset + side->offsety_mid)) * grTex->scaleY; wallVerts[2].t = (((*rover->topheight - hS) * yscale) + texturevpeg) * grTex->scaleY;
wallVerts[0].t = (((*rover->topheight - l) * yscale) + texturevpeg) * grTex->scaleY;
wallVerts[0].s = wallVerts[3].s = ((cliplow * xscale) + side->offsetx_mid) * grTex->scaleX; wallVerts[1].t = (((*rover->topheight - lS) * yscale) + texturevpeg) * grTex->scaleY;
wallVerts[2].s = wallVerts[1].s = ((cliphigh * xscale) + side->offsetx_mid) * grTex->scaleX;
} }
else
{
if (!dont_peg_bottom) // skew by top
{
wallVerts[3].t = wallVerts[2].t = texturevpeg * grTex->scaleY;
wallVerts[0].t = (((h - l) * yscale) + texturevpeg) * grTex->scaleY;
wallVerts[1].t = (((hS - lS) * yscale) + texturevpeg) * grTex->scaleY;
}
else // skew by bottom
{
wallVerts[0].t = wallVerts[1].t = texturevpeg * grTex->scaleY;
wallVerts[3].t = wallVerts[0].t - ((h - l) * yscale) * grTex->scaleY;
wallVerts[2].t = wallVerts[1].t - ((hS - lS) * yscale) * grTex->scaleY;
}
}
wallVerts[0].s = wallVerts[3].s = ((cliplow * xscale) + texturehpeg + side->offsetx_mid) * grTex->scaleX;
wallVerts[2].s = wallVerts[1].s = ((cliphigh * xscale) + texturehpeg + side->offsetx_mid) * grTex->scaleX;
}
FBITFIELD blendmode;
if (rover->fofflags & FOF_FOG) if (rover->fofflags & FOF_FOG)
{ {
FBITFIELD blendmode;
blendmode = PF_Fog|PF_NoTexture; blendmode = PF_Fog|PF_NoTexture;
lightnum = HWR_CalcWallLight(rover->master->frontsector->lightlevel, vs.x, vs.y, ve.x, ve.y); lightnum = HWR_CalcWallLight(rover->master->frontsector->lightlevel, vs.x, vs.y, ve.x, ve.y);
@ -1839,7 +1921,7 @@ static void HWR_ProcessSeg(void) // Sort of like GLWall::Process in GZDoom
} }
else else
{ {
FBITFIELD blendmode = PF_Masked; blendmode = PF_Masked;
if ((rover->fofflags & FOF_TRANSLUCENT && !(rover->fofflags & FOF_SPLAT)) || rover->blend) if ((rover->fofflags & FOF_TRANSLUCENT && !(rover->fofflags & FOF_SPLAT)) || rover->blend)
{ {
@ -2656,36 +2738,14 @@ static boolean HWR_CheckBBox(fixed_t *bspcoord)
static inline void HWR_AddPolyObjectSegs(void) static inline void HWR_AddPolyObjectSegs(void)
{ {
size_t i, j; size_t i, j;
seg_t *gl_fakeline = Z_Calloc(sizeof(seg_t), PU_STATIC, NULL);
polyvertex_t *pv1 = Z_Calloc(sizeof(polyvertex_t), PU_STATIC, NULL);
polyvertex_t *pv2 = Z_Calloc(sizeof(polyvertex_t), PU_STATIC, NULL);
// Sort through all the polyobjects // Sort through all the polyobjects
for (i = 0; i < numpolys; ++i) for (i = 0; i < numpolys; ++i)
{ {
// Render the polyobject's lines // Render the polyobject's lines
for (j = 0; j < po_ptrs[i]->segCount; ++j) for (j = 0; j < po_ptrs[i]->segCount; ++j)
{ HWR_AddLine(po_ptrs[i]->segs[j]);
// Copy the info of a polyobject's seg, then convert it to OpenGL floating point
M_Memcpy(gl_fakeline, po_ptrs[i]->segs[j], sizeof(seg_t));
// Now convert the line to float and add it to be rendered
pv1->x = FIXED_TO_FLOAT(gl_fakeline->v1->x);
pv1->y = FIXED_TO_FLOAT(gl_fakeline->v1->y);
pv2->x = FIXED_TO_FLOAT(gl_fakeline->v2->x);
pv2->y = FIXED_TO_FLOAT(gl_fakeline->v2->y);
gl_fakeline->pv1 = pv1;
gl_fakeline->pv2 = pv2;
HWR_AddLine(gl_fakeline);
} }
}
// Free temporary data no longer needed
Z_Free(pv2);
Z_Free(pv1);
Z_Free(gl_fakeline);
} }
static void HWR_RenderPolyObjectPlane(polyobj_t *polysector, boolean isceiling, fixed_t fixedheight, static void HWR_RenderPolyObjectPlane(polyobj_t *polysector, boolean isceiling, fixed_t fixedheight,

View file

@ -3290,8 +3290,6 @@ static void P_InitializeSeg(seg_t *seg)
seg->lightmaps = NULL; // list of static lightmap for this seg seg->lightmaps = NULL; // list of static lightmap for this seg
#endif #endif
seg->numlights = 0;
seg->rlights = NULL;
seg->polyseg = NULL; seg->polyseg = NULL;
seg->dontrenderme = false; seg->dontrenderme = false;
} }

View file

@ -742,9 +742,6 @@ typedef struct seg_s
lightmap_t *lightmaps; // for static lightmap lightmap_t *lightmaps; // for static lightmap
#endif #endif
// Why slow things down by calculating lightlists for every thick side?
size_t numlights;
r_lightlist_t *rlights;
polyobj_t *polyseg; polyobj_t *polyseg;
boolean dontrenderme; boolean dontrenderme;
boolean glseg; boolean glseg;
@ -828,6 +825,7 @@ typedef struct drawseg_s
INT16 *sprtopclip; INT16 *sprtopclip;
INT16 *sprbottomclip; INT16 *sprbottomclip;
fixed_t *maskedtexturecol; fixed_t *maskedtexturecol;
fixed_t *maskedtextureheight; // For handling sloped midtextures
fixed_t *invscale; fixed_t *invscale;
struct visplane_s *ffloorplanes[MAXFFLOORS]; struct visplane_s *ffloorplanes[MAXFFLOORS];
@ -839,8 +837,6 @@ typedef struct drawseg_s
UINT8 portalpass; // if > 0 and <= portalrender, do not affect sprite clipping UINT8 portalpass; // if > 0 and <= portalrender, do not affect sprite clipping
fixed_t maskedtextureheight[MAXVIDWIDTH]; // For handling sloped midtextures
vertex_t leftpos, rightpos; // Used for rendering FOF walls with slopes vertex_t leftpos, rightpos; // Used for rendering FOF walls with slopes
} drawseg_t; } drawseg_t;

View file

@ -318,7 +318,6 @@ angle_t R_PointToAngle(fixed_t x, fixed_t y)
} }
// This version uses 64-bit variables to avoid overflows with large values. // This version uses 64-bit variables to avoid overflows with large values.
// Currently used only by OpenGL rendering.
angle_t R_PointToAngle64(INT64 x, INT64 y) angle_t R_PointToAngle64(INT64 x, INT64 y)
{ {
return (y -= viewy, (x -= viewx) || y) ? return (y -= viewy, (x -= viewx) || y) ?
@ -384,56 +383,26 @@ fixed_t R_PointToDist(fixed_t x, fixed_t y)
return R_PointToDist2(viewx, viewy, x, y); return R_PointToDist2(viewx, viewy, x, y);
} }
angle_t R_PointToAngleEx(INT32 x2, INT32 y2, INT32 x1, INT32 y1) line_t *R_GetFFloorLine(const seg_t *seg, const ffloor_t *pfloor)
{ {
INT64 dx = x1-x2; if (pfloor->master->flags & ML_TFERLINE)
INT64 dy = y1-y2;
if (dx < INT32_MIN || dx > INT32_MAX || dy < INT32_MIN || dy > INT32_MAX)
{ {
x1 = (int)(dx / 2 + x2); size_t linenum = seg->linedef - pfloor->target->lines[0];
y1 = (int)(dy / 2 + y2); return pfloor->master->frontsector->lines[0] + linenum;
} }
return (y1 -= y2, (x1 -= x2) || y1) ? else
x1 >= 0 ? return pfloor->master;
y1 >= 0 ?
(x1 > y1) ? tantoangle[SlopeDivEx(y1,x1)] : // octant 0
ANGLE_90-tantoangle[SlopeDivEx(x1,y1)] : // octant 1
x1 > (y1 = -y1) ? 0-tantoangle[SlopeDivEx(y1,x1)] : // octant 8
ANGLE_270+tantoangle[SlopeDivEx(x1,y1)] : // octant 7
y1 >= 0 ? (x1 = -x1) > y1 ? ANGLE_180-tantoangle[SlopeDivEx(y1,x1)] : // octant 3
ANGLE_90 + tantoangle[SlopeDivEx(x1,y1)] : // octant 2
(x1 = -x1) > (y1 = -y1) ? ANGLE_180+tantoangle[SlopeDivEx(y1,x1)] : // octant 4
ANGLE_270-tantoangle[SlopeDivEx(x1,y1)] : // octant 5
0;
} }
// side_t *R_GetFFloorSide(const seg_t *seg, const ffloor_t *pfloor)
// R_ScaleFromGlobalAngle
// Returns the texture mapping scale for the current line (horizontal span)
// at the given angle.
// rw_distance must be calculated first.
//
// killough 5/2/98: reformatted, cleaned up
//
// note: THIS IS USED ONLY FOR WALLS!
fixed_t R_ScaleFromGlobalAngle(angle_t visangle)
{ {
angle_t anglea = ANGLE_90 + (visangle-viewangle); if (pfloor->master->flags & ML_TFERLINE)
angle_t angleb = ANGLE_90 + (visangle-rw_normalangle);
fixed_t den = FixedMul(rw_distance, FINESINE(anglea>>ANGLETOFINESHIFT));
// proff 11/06/98: Changed for high-res
fixed_t num = FixedMul(projectiony, FINESINE(angleb>>ANGLETOFINESHIFT));
if (den > num>>16)
{ {
num = FixedDiv(num, den); line_t *newline = R_GetFFloorLine(seg, pfloor);
if (num > 64*FRACUNIT) return &sides[newline->sidenum[0]];
return 64*FRACUNIT;
if (num < 256)
return 256;
return num;
} }
return 64*FRACUNIT; else
return &sides[pfloor->master->sidenum[0]];
} }
// //

View file

@ -77,17 +77,18 @@ INT32 R_PointOnSegSide(fixed_t x, fixed_t y, seg_t *line);
angle_t R_PointToAngle(fixed_t x, fixed_t y); angle_t R_PointToAngle(fixed_t x, fixed_t y);
angle_t R_PointToAngle64(INT64 x, INT64 y); angle_t R_PointToAngle64(INT64 x, INT64 y);
angle_t R_PointToAngle2(fixed_t px2, fixed_t py2, fixed_t px1, fixed_t py1); angle_t R_PointToAngle2(fixed_t px2, fixed_t py2, fixed_t px1, fixed_t py1);
angle_t R_PointToAngleEx(INT32 x2, INT32 y2, INT32 x1, INT32 y1);
fixed_t R_PointToDist(fixed_t x, fixed_t y); fixed_t R_PointToDist(fixed_t x, fixed_t y);
fixed_t R_PointToDist2(fixed_t px2, fixed_t py2, fixed_t px1, fixed_t py1); fixed_t R_PointToDist2(fixed_t px2, fixed_t py2, fixed_t px1, fixed_t py1);
fixed_t R_ScaleFromGlobalAngle(angle_t visangle);
boolean R_IsPointInSector(sector_t *sector, fixed_t x, fixed_t y); boolean R_IsPointInSector(sector_t *sector, fixed_t x, fixed_t y);
subsector_t *R_PointInSubsector(fixed_t x, fixed_t y); subsector_t *R_PointInSubsector(fixed_t x, fixed_t y);
subsector_t *R_PointInSubsectorOrNull(fixed_t x, fixed_t y); subsector_t *R_PointInSubsectorOrNull(fixed_t x, fixed_t y);
boolean R_DoCulling(line_t *cullheight, line_t *viewcullheight, fixed_t vz, fixed_t bottomh, fixed_t toph); boolean R_DoCulling(line_t *cullheight, line_t *viewcullheight, fixed_t vz, fixed_t bottomh, fixed_t toph);
line_t *R_GetFFloorLine(const seg_t *seg, const ffloor_t *pfloor);
side_t *R_GetFFloorSide(const seg_t *seg, const ffloor_t *pfloor);
// Render stats // Render stats
extern precise_t ps_prevframetime;// time when previous frame was rendered extern precise_t ps_prevframetime;// time when previous frame was rendered

View file

@ -16,15 +16,10 @@
#include "r_sky.h" #include "r_sky.h"
#include "r_portal.h" #include "r_portal.h"
#include "r_splats.h"
#include "w_wad.h" #include "w_wad.h"
#include "z_zone.h" #include "z_zone.h"
#include "netcode/d_netcmd.h"
#include "m_misc.h"
#include "p_local.h" // Camera...
#include "p_slopes.h" #include "p_slopes.h"
#include "console.h" // con_clipviewtop
#include "taglist.h" #include "taglist.h"
// OPTIMIZE: closed two sided lines as single sided // OPTIMIZE: closed two sided lines as single sided
@ -79,6 +74,8 @@ static fixed_t *maskedtextureheight = NULL;
static fixed_t *thicksidecol = NULL; static fixed_t *thicksidecol = NULL;
static fixed_t *invscale = NULL; static fixed_t *invscale = NULL;
static boolean texcoltables;
//SoM: 3/23/2000: Use boom opening limit removal //SoM: 3/23/2000: Use boom opening limit removal
static size_t numopenings; static size_t numopenings;
static INT16 *openings, *lastopening; static INT16 *openings, *lastopening;
@ -92,10 +89,6 @@ void R_ClearSegTables(void)
curtexturecolumntable = texturecolumntable; curtexturecolumntable = texturecolumntable;
} }
// ==========================================================================
// R_RenderMaskedSegRange
// ==========================================================================
transnum_t R_GetLinedefTransTable(fixed_t alpha) transnum_t R_GetLinedefTransTable(fixed_t alpha)
{ {
return (20*(FRACUNIT - alpha - 1) + FRACUNIT) >> (FRACBITS+1); return (20*(FRACUNIT - alpha - 1) + FRACUNIT) >> (FRACBITS+1);
@ -115,8 +108,13 @@ void R_RenderMaskedSegRange(drawseg_t *ds, INT32 x1, INT32 x2)
INT32 times, repeats; INT32 times, repeats;
INT64 overflow_test; INT64 overflow_test;
INT32 range; INT32 range;
UINT8 vertflip;
unsigned lengthcol; unsigned lengthcol;
fixed_t wall_scaley;
fixed_t scalestep;
fixed_t scale1;
// Calculate light table. // Calculate light table.
// Use different light tables // Use different light tables
// for horizontal / vertical / diagonal. Diagonal? // for horizontal / vertical / diagonal. Diagonal?
@ -164,9 +162,17 @@ void R_RenderMaskedSegRange(drawseg_t *ds, INT32 x1, INT32 x2)
colfunc = colfuncs[COLDRAWFUNC_FUZZY]; colfunc = colfuncs[COLDRAWFUNC_FUZZY];
} }
fixed_t wall_scaley = sidedef->scaley_mid; vertflip = textures[texnum]->flip & 2;
fixed_t scalestep = FixedDiv(ds->scalestep, wall_scaley);
fixed_t scale1 = FixedDiv(ds->scale1, wall_scaley); wall_scaley = sidedef->scaley_mid;
if (wall_scaley < 0)
{
wall_scaley = -wall_scaley;
vertflip = !vertflip;
}
scalestep = FixedDiv(ds->scalestep, wall_scaley);
scale1 = FixedDiv(ds->scale1, wall_scaley);
range = max(ds->x2-ds->x1, 1); range = max(ds->x2-ds->x1, 1);
rw_scalestep = scalestep; rw_scalestep = scalestep;
@ -175,7 +181,7 @@ void R_RenderMaskedSegRange(drawseg_t *ds, INT32 x1, INT32 x2)
// Texture must be cached // Texture must be cached
R_CheckTextureCache(texnum); R_CheckTextureCache(texnum);
if (textures[texnum]->flip & 2) // vertically flipped? if (vertflip) // vertically flipped?
colfunc_2s = R_DrawFlippedMaskedColumn; colfunc_2s = R_DrawFlippedMaskedColumn;
else else
colfunc_2s = R_DrawMaskedColumn; // render the usual 2sided single-patch packed texture colfunc_2s = R_DrawMaskedColumn; // render the usual 2sided single-patch packed texture
@ -469,6 +475,11 @@ static boolean R_IsFFloorTranslucent(visffloor_t *pfloor)
return false; return false;
} }
static fixed_t R_GetSlopeTextureSlide(pslope_t *slope, angle_t lineangle)
{
return FixedMul(slope->zdelta, FINECOSINE((lineangle-slope->xydirection)>>ANGLETOFINESHIFT));
}
// //
// R_RenderThickSideRange // R_RenderThickSideRange
// Renders all the thick sides in the given range. // Renders all the thick sides in the given range.
@ -484,8 +495,6 @@ void R_RenderThickSideRange(drawseg_t *ds, INT32 x1, INT32 x2, ffloor_t *pfloor)
sector_t tempsec; sector_t tempsec;
INT32 templight; INT32 templight;
INT32 i, p; INT32 i, p;
fixed_t bottombounds = viewheight << FRACBITS;
fixed_t topbounds = (con_clipviewtop - 1) << FRACBITS;
fixed_t offsetvalue; fixed_t offsetvalue;
lightlist_t *light; lightlist_t *light;
r_lightlist_t *rlight; r_lightlist_t *rlight;
@ -495,12 +504,14 @@ void R_RenderThickSideRange(drawseg_t *ds, INT32 x1, INT32 x2, ffloor_t *pfloor)
INT64 top_frac, top_step, bottom_frac, bottom_step; INT64 top_frac, top_step, bottom_frac, bottom_step;
// skew FOF walls with slopes? // skew FOF walls with slopes?
fixed_t ffloortextureslide = 0; fixed_t ffloortextureslide = 0;
INT32 oldx = -1; fixed_t oldtexturecolumn = -1;
fixed_t left_top, left_bottom; // needed here for slope skewing fixed_t left_top, left_bottom; // needed here for slope skewing
pslope_t *skewslope = NULL; pslope_t *skewslope = NULL;
boolean do_texture_skew; boolean do_texture_skew;
boolean dont_peg_bottom; boolean dont_peg_bottom;
fixed_t wall_offsetx;
fixed_t wall_scalex, wall_scaley; fixed_t wall_scalex, wall_scaley;
UINT8 vertflip;
unsigned lengthcol; unsigned lengthcol;
void (*colfunc_2s) (column_t *, unsigned); void (*colfunc_2s) (column_t *, unsigned);
@ -513,15 +524,13 @@ void R_RenderThickSideRange(drawseg_t *ds, INT32 x1, INT32 x2, ffloor_t *pfloor)
curline = ds->curline; curline = ds->curline;
backsector = pfloor->target; backsector = pfloor->target;
frontsector = curline->frontsector == pfloor->target ? curline->backsector : curline->frontsector; frontsector = curline->frontsector == pfloor->target ? curline->backsector : curline->frontsector;
sidedef = &sides[pfloor->master->sidenum[0]]; sidedef = R_GetFFloorSide(curline, pfloor);
colfunc = colfuncs[BASEDRAWFUNC]; colfunc = colfuncs[BASEDRAWFUNC];
if (pfloor->master->flags & ML_TFERLINE) if (pfloor->master->flags & ML_TFERLINE)
{ {
size_t linenum = curline->linedef-backsector->lines[0]; line_t *newline = R_GetFFloorLine(curline, pfloor);
line_t *newline = pfloor->master->frontsector->lines[0] + linenum;
sidedef = &sides[newline->sidenum[0]];
do_texture_skew = newline->flags & ML_SKEWTD; do_texture_skew = newline->flags & ML_SKEWTD;
dont_peg_bottom = newline->flags & ML_DONTPEGBOTTOM; dont_peg_bottom = newline->flags & ML_DONTPEGBOTTOM;
} }
@ -532,6 +541,7 @@ void R_RenderThickSideRange(drawseg_t *ds, INT32 x1, INT32 x2, ffloor_t *pfloor)
} }
texnum = R_GetTextureNum(sidedef->midtexture); texnum = R_GetTextureNum(sidedef->midtexture);
vertflip = textures[texnum]->flip & 2;
if (pfloor->fofflags & FOF_TRANSLUCENT) if (pfloor->fofflags & FOF_TRANSLUCENT)
{ {
@ -685,18 +695,25 @@ void R_RenderThickSideRange(drawseg_t *ds, INT32 x1, INT32 x2, ffloor_t *pfloor)
wall_scalex = FixedDiv(FRACUNIT, sidedef->scalex_mid); wall_scalex = FixedDiv(FRACUNIT, sidedef->scalex_mid);
wall_scaley = sidedef->scaley_mid; wall_scaley = sidedef->scaley_mid;
if (wall_scaley < 0)
{
wall_scaley = -wall_scaley;
vertflip = !vertflip;
}
thicksidecol = ffloortexturecolumn; thicksidecol = ffloortexturecolumn;
wall_offsetx = ds->offsetx + sidedef->offsetx_mid;
if (wall_scalex == FRACUNIT) if (wall_scalex == FRACUNIT)
{ {
for (INT32 x = x1; x <= x2; x++) for (INT32 x = x1; x <= x2; x++)
thicksidecol[x] = ds->thicksidecol[x] + ds->offsetx; thicksidecol[x] = ds->thicksidecol[x];
} }
else else
{ {
for (INT32 x = x1; x <= x2; x++) for (INT32 x = x1; x <= x2; x++)
thicksidecol[x] = FixedDiv(ds->thicksidecol[x], wall_scalex) + ds->offsetx; thicksidecol[x] = FixedDiv(ds->thicksidecol[x], wall_scalex);
} }
mfloorclip = ds->sprbottomclip; mfloorclip = ds->sprbottomclip;
@ -731,7 +748,7 @@ void R_RenderThickSideRange(drawseg_t *ds, INT32 x1, INT32 x2, ffloor_t *pfloor)
if (skewslope) if (skewslope)
{ {
angle_t lineangle = R_PointToAngle2(curline->v1->x, curline->v1->y, curline->v2->x, curline->v2->y); angle_t lineangle = R_PointToAngle2(curline->v1->x, curline->v1->y, curline->v2->x, curline->v2->y);
ffloortextureslide = FixedMul(skewslope->zdelta, FINECOSINE((lineangle-skewslope->xydirection)>>ANGLETOFINESHIFT)); ffloortextureslide = FixedMul(R_GetSlopeTextureSlide(skewslope, lineangle), wall_scaley);
} }
dc_texturemid += offsetvalue; dc_texturemid += offsetvalue;
@ -739,7 +756,7 @@ void R_RenderThickSideRange(drawseg_t *ds, INT32 x1, INT32 x2, ffloor_t *pfloor)
// Texture must be cached // Texture must be cached
R_CheckTextureCache(texnum); R_CheckTextureCache(texnum);
if (textures[texnum]->flip & 2) // vertically flipped? if (vertflip) // vertically flipped?
colfunc_2s = R_DrawRepeatFlippedMaskedColumn; colfunc_2s = R_DrawRepeatFlippedMaskedColumn;
else else
colfunc_2s = R_DrawRepeatMaskedColumn; // render the usual 2sided single-patch packed texture colfunc_2s = R_DrawRepeatMaskedColumn; // render the usual 2sided single-patch packed texture
@ -773,9 +790,9 @@ void R_RenderThickSideRange(drawseg_t *ds, INT32 x1, INT32 x2, ffloor_t *pfloor)
// skew FOF walls // skew FOF walls
if (ffloortextureslide) if (ffloortextureslide)
{ {
if (oldx != -1) if (oldtexturecolumn != -1)
dc_texturemid += FixedMul(ffloortextureslide, thicksidecol[oldx]-thicksidecol[dc_x]); dc_texturemid += FixedMul(ffloortextureslide, oldtexturecolumn-ds->thicksidecol[dc_x]);
oldx = dc_x; oldtexturecolumn = ds->thicksidecol[dc_x];
} }
// Calculate bounds // Calculate bounds
@ -791,7 +808,7 @@ void R_RenderThickSideRange(drawseg_t *ds, INT32 x1, INT32 x2, ffloor_t *pfloor)
bottom_frac += bottom_step; bottom_frac += bottom_step;
// SoM: If column is out of range, why bother with it?? // SoM: If column is out of range, why bother with it??
if (windowbottom < topbounds || windowtop > bottombounds) if (windowbottom < 0 || windowtop > (viewheight << FRACBITS))
{ {
if (dc_numlights) if (dc_numlights)
{ {
@ -810,7 +827,7 @@ void R_RenderThickSideRange(drawseg_t *ds, INT32 x1, INT32 x2, ffloor_t *pfloor)
dc_iscale = FixedMul(0xffffffffu / (unsigned)spryscale, wall_scaley); dc_iscale = FixedMul(0xffffffffu / (unsigned)spryscale, wall_scaley);
// Get data for the column // Get data for the column
col = R_GetColumn(texnum, (thicksidecol[dc_x] >> FRACBITS)); col = R_GetColumn(texnum, ((thicksidecol[dc_x] + wall_offsetx) >> FRACBITS));
// SoM: New code does not rely on R_DrawColumnShadowed_8 which // SoM: New code does not rely on R_DrawColumnShadowed_8 which
// will (hopefully) put less strain on the stack. // will (hopefully) put less strain on the stack.
@ -984,17 +1001,18 @@ static boolean R_FFloorCanClip(visffloor_t *pfloor)
#define HEIGHTBITS 12 #define HEIGHTBITS 12
#define HEIGHTUNIT (1<<HEIGHTBITS) #define HEIGHTUNIT (1<<HEIGHTBITS)
static void R_DrawRegularWall(UINT8 *source, INT32 height)
{
dc_source = source;
dc_texheight = height;
colfunc();
}
//profile stuff --------------------------------------------------------- static void R_DrawFlippedWall(UINT8 *source, INT32 height)
//#define TIMING {
#ifdef TIMING dc_texheight = height;
#include "p5prof.h" R_DrawFlippedPost(source, (unsigned)height, colfunc);
INT64 mycount; }
INT64 mytotal = 0;
UINT32 nombre = 100000;
//static char runtest[10][80];
#endif
//profile stuff ---------------------------------------------------------
static void R_RenderSegLoop (void) static void R_RenderSegLoop (void)
{ {
@ -1015,6 +1033,33 @@ static void R_RenderSegLoop (void)
INT32 bottom; INT32 bottom;
INT32 i; INT32 i;
fixed_t topscaley = rw_toptexturescaley;
fixed_t midscaley = rw_midtexturescaley;
fixed_t bottomscaley = rw_bottomtexturescaley;
void (*drawtop)(UINT8 *, INT32) = R_DrawRegularWall;
void (*drawmiddle)(UINT8 *, INT32) = R_DrawRegularWall;
void (*drawbottom)(UINT8 *, INT32) = R_DrawRegularWall;
if (dc_numlights)
colfunc = colfuncs[COLDRAWFUNC_SHADOWED];
if (toptexture && topscaley < 0)
{
topscaley = -topscaley;
drawtop = R_DrawFlippedWall;
}
if (midtexture && midscaley < 0)
{
midscaley = -midscaley;
drawmiddle = R_DrawFlippedWall;
}
if (bottomtexture && bottomscaley < 0)
{
bottomscaley = -bottomscaley;
drawbottom = R_DrawFlippedWall;
}
if (midtexture) if (midtexture)
R_CheckTextureCache(midtexture); R_CheckTextureCache(midtexture);
if (toptexture) if (toptexture)
@ -1234,8 +1279,6 @@ static void R_RenderSegLoop (void)
dc_lightlist[i].rcolormap = dc_lightlist[i].extra_colormap->colormap + (xwalllights[pindex] - colormaps); dc_lightlist[i].rcolormap = dc_lightlist[i].extra_colormap->colormap + (xwalllights[pindex] - colormaps);
else else
dc_lightlist[i].rcolormap = xwalllights[pindex]; dc_lightlist[i].rcolormap = xwalllights[pindex];
colfunc = colfuncs[COLDRAWFUNC_SHADOWED];
} }
} }
@ -1252,24 +1295,9 @@ static void R_RenderSegLoop (void)
dc_yl = yl; dc_yl = yl;
dc_yh = yh; dc_yh = yh;
dc_texturemid = rw_midtexturemid; dc_texturemid = rw_midtexturemid;
dc_iscale = FixedMul(0xffffffffu / (unsigned)rw_scale, rw_midtexturescaley);
dc_source = R_GetColumn(midtexture, offset >> FRACBITS)->pixels;
dc_texheight = textureheight[midtexture]>>FRACBITS; dc_texheight = textureheight[midtexture]>>FRACBITS;
dc_iscale = FixedMul(0xffffffffu / (unsigned)rw_scale, midscaley);
//profile stuff --------------------------------------------------------- drawmiddle(R_GetColumn(midtexture, offset >> FRACBITS)->pixels, dc_texheight);
#ifdef TIMING
ProfZeroTimer();
#endif
colfunc();
#ifdef TIMING
RDMSR(0x10,&mycount);
mytotal += mycount; //64bit add
if (nombre--==0)
I_Error("R_DrawColumn CPU Spy reports: 0x%d %d\n", *((INT32 *)&mytotal+1),
(INT32)mytotal);
#endif
//profile stuff ---------------------------------------------------------
// dont draw anything more for this column, since // dont draw anything more for this column, since
// a midtexture blocks the view // a midtexture blocks the view
@ -1321,10 +1349,9 @@ static void R_RenderSegLoop (void)
dc_yl = yl; dc_yl = yl;
dc_yh = mid; dc_yh = mid;
dc_texturemid = rw_toptexturemid; dc_texturemid = rw_toptexturemid;
dc_iscale = FixedMul(0xffffffffu / (unsigned)rw_scale, rw_toptexturescaley);
dc_source = R_GetColumn(toptexture, offset >> FRACBITS)->pixels;
dc_texheight = textureheight[toptexture]>>FRACBITS; dc_texheight = textureheight[toptexture]>>FRACBITS;
colfunc(); dc_iscale = FixedMul(0xffffffffu / (unsigned)rw_scale, topscaley);
drawtop(R_GetColumn(toptexture, offset >> FRACBITS)->pixels, dc_texheight);
ceilingclip[rw_x] = (INT16)mid; ceilingclip[rw_x] = (INT16)mid;
} }
else if (!rw_ceilingmarked) // entirely off top of screen else if (!rw_ceilingmarked) // entirely off top of screen
@ -1334,8 +1361,8 @@ static void R_RenderSegLoop (void)
ceilingclip[rw_x] = topclip; ceilingclip[rw_x] = topclip;
if (oldtexturecolumn_top != -1) if (oldtexturecolumn_top != -1)
rw_toptexturemid += FixedMul(rw_toptextureslide, oldtexturecolumn_top-toptexturecolumn); rw_toptexturemid += FixedMul(rw_toptextureslide, oldtexturecolumn_top-textureoffset);
oldtexturecolumn_top = toptexturecolumn; oldtexturecolumn_top = textureoffset;
} }
else if (markceiling && (!rw_ceilingmarked)) // no top wall else if (markceiling && (!rw_ceilingmarked)) // no top wall
ceilingclip[rw_x] = topclip; ceilingclip[rw_x] = topclip;
@ -1369,10 +1396,9 @@ static void R_RenderSegLoop (void)
dc_yl = mid; dc_yl = mid;
dc_yh = yh; dc_yh = yh;
dc_texturemid = rw_bottomtexturemid; dc_texturemid = rw_bottomtexturemid;
dc_iscale = FixedMul(0xffffffffu / (unsigned)rw_scale, rw_bottomtexturescaley);
dc_source = R_GetColumn(bottomtexture, offset >> FRACBITS)->pixels;
dc_texheight = textureheight[bottomtexture]>>FRACBITS; dc_texheight = textureheight[bottomtexture]>>FRACBITS;
colfunc(); dc_iscale = FixedMul(0xffffffffu / (unsigned)rw_scale, bottomscaley);
drawbottom(R_GetColumn(bottomtexture, offset >> FRACBITS)->pixels, dc_texheight);
floorclip[rw_x] = (INT16)mid; floorclip[rw_x] = (INT16)mid;
} }
else if (!rw_floormarked) // entirely off bottom of screen else if (!rw_floormarked) // entirely off bottom of screen
@ -1382,8 +1408,8 @@ static void R_RenderSegLoop (void)
floorclip[rw_x] = bottomclip; floorclip[rw_x] = bottomclip;
if (oldtexturecolumn_bottom != -1) if (oldtexturecolumn_bottom != -1)
rw_bottomtexturemid += FixedMul(rw_bottomtextureslide, oldtexturecolumn_bottom-bottomtexturecolumn); rw_bottomtexturemid += FixedMul(rw_bottomtextureslide, oldtexturecolumn_bottom-textureoffset);
oldtexturecolumn_bottom = bottomtexturecolumn; oldtexturecolumn_bottom = textureoffset;
} }
else if (markfloor && (!rw_floormarked)) // no bottom wall else if (markfloor && (!rw_floormarked)) // no bottom wall
floorclip[rw_x] = bottomclip; floorclip[rw_x] = bottomclip;
@ -1407,11 +1433,14 @@ static void R_RenderSegLoop (void)
{ {
if (oldtexturecolumn != -1) if (oldtexturecolumn != -1)
{ {
rw_midtexturemid += FixedMul(rw_midtextureslide, oldtexturecolumn-texturecolumn); INT32 diff = oldtexturecolumn-textureoffset;
rw_midtextureback += FixedMul(rw_midtexturebackslide, oldtexturecolumn-texturecolumn); if (rw_invmidtexturescalex < 0)
diff = -diff;
rw_midtexturemid += FixedMul(rw_midtextureslide, diff);
rw_midtextureback += FixedMul(rw_midtexturebackslide, diff);
} }
oldtexturecolumn = texturecolumn; oldtexturecolumn = textureoffset;
} }
if (invscale) if (invscale)
@ -1505,7 +1534,7 @@ static void R_AllocClippingTables(size_t range)
static void R_AllocTextureColumnTables(size_t range) static void R_AllocTextureColumnTables(size_t range)
{ {
size_t pos = curtexturecolumntable - texturecolumntable; size_t pos = curtexturecolumntable - texturecolumntable;
size_t need = range * 3; size_t need = range * 4;
if (pos + need < texturecolumntablesize) if (pos + need < texturecolumntablesize)
return; return;
@ -1526,15 +1555,48 @@ static void R_AllocTextureColumnTables(size_t range)
for (drawseg_t *ds = drawsegs; ds < ds_p; ds++) for (drawseg_t *ds = drawsegs; ds < ds_p; ds++)
{ {
// Check if it's in range of the tables // Check if it's in range of the tables
if (ds->maskedtexturecol + ds->x1 >= oldtable && ds->maskedtexturecol + ds->x1 <= oldlast) #define CHECK(which) \
ds->maskedtexturecol = (ds->maskedtexturecol - oldtable) + texturecolumntable; if (which + ds->x1 >= oldtable && which + ds->x1 <= oldlast) \
if (ds->thicksidecol + ds->x1 >= oldtable && ds->thicksidecol + ds->x1 <= oldlast) which = (which - oldtable) + texturecolumntable
ds->thicksidecol = (ds->thicksidecol - oldtable) + texturecolumntable;
if (ds->invscale + ds->x1 >= oldtable && ds->invscale + ds->x1 <= oldlast) CHECK(ds->maskedtexturecol);
ds->invscale = (ds->invscale - oldtable) + texturecolumntable; CHECK(ds->maskedtextureheight);
CHECK(ds->thicksidecol);
CHECK(ds->invscale);
#undef CHECK
} }
} }
//
// R_ScaleFromGlobalAngle
// Returns the texture mapping scale for the current line (horizontal span)
// at the given angle.
// rw_distance must be calculated first.
//
// killough 5/2/98: reformatted, cleaned up
//
// note: THIS IS USED ONLY FOR WALLS!
static fixed_t R_ScaleFromGlobalAngle(angle_t visangle)
{
angle_t anglea = ANGLE_90 + (visangle-viewangle);
angle_t angleb = ANGLE_90 + (visangle-rw_normalangle);
fixed_t den = FixedMul(rw_distance, FINESINE(anglea>>ANGLETOFINESHIFT));
// proff 11/06/98: Changed for high-res
fixed_t num = FixedMul(projectiony, FINESINE(angleb>>ANGLETOFINESHIFT));
if (den > num>>16)
{
num = FixedDiv(num, den);
if (num > 64*FRACUNIT)
return 64*FRACUNIT;
if (num < 256)
return 256;
return num;
}
return 64*FRACUNIT;
}
// //
// R_StoreWallRange // R_StoreWallRange
// A wall segment will be drawn // A wall segment will be drawn
@ -1706,11 +1768,14 @@ void R_StoreWallRange(INT32 start, INT32 stop)
midtexture = toptexture = bottomtexture = maskedtexture = 0; midtexture = toptexture = bottomtexture = maskedtexture = 0;
ds_p->maskedtexturecol = NULL; ds_p->maskedtexturecol = NULL;
ds_p->maskedtextureheight = NULL;
ds_p->numthicksides = numthicksides = 0; ds_p->numthicksides = numthicksides = 0;
ds_p->thicksidecol = NULL; ds_p->thicksidecol = NULL;
ds_p->invscale = NULL; ds_p->invscale = NULL;
ds_p->tsilheight = 0; ds_p->tsilheight = 0;
texcoltables = false;
numbackffloors = 0; numbackffloors = 0;
for (i = 0; i < MAXFFLOORS; i++) for (i = 0; i < MAXFFLOORS; i++)
@ -1736,16 +1801,19 @@ void R_StoreWallRange(INT32 start, INT32 stop)
angle_t lineangle = R_PointToAngle2(curline->v1->x, curline->v1->y, curline->v2->x, curline->v2->y); angle_t lineangle = R_PointToAngle2(curline->v1->x, curline->v1->y, curline->v2->x, curline->v2->y);
if (frontsector->f_slope) if (frontsector->f_slope)
floorfrontslide = FixedMul(frontsector->f_slope->zdelta, FINECOSINE((lineangle-frontsector->f_slope->xydirection)>>ANGLETOFINESHIFT)); floorfrontslide = R_GetSlopeTextureSlide(frontsector->f_slope, lineangle);
if (frontsector->c_slope) if (frontsector->c_slope)
ceilingfrontslide = FixedMul(frontsector->c_slope->zdelta, FINECOSINE((lineangle-frontsector->c_slope->xydirection)>>ANGLETOFINESHIFT)); ceilingfrontslide = R_GetSlopeTextureSlide(frontsector->c_slope, lineangle);
if (backsector && backsector->f_slope) if (backsector)
floorbackslide = FixedMul(backsector->f_slope->zdelta, FINECOSINE((lineangle-backsector->f_slope->xydirection)>>ANGLETOFINESHIFT)); {
if (backsector->f_slope)
floorbackslide = R_GetSlopeTextureSlide(backsector->f_slope, lineangle);
if (backsector && backsector->c_slope) if (backsector->c_slope)
ceilingbackslide = FixedMul(backsector->c_slope->zdelta, FINECOSINE((lineangle-backsector->c_slope->xydirection)>>ANGLETOFINESHIFT)); ceilingbackslide = R_GetSlopeTextureSlide(backsector->c_slope, lineangle);
}
} }
rw_midtexturescalex = sidedef->scalex_mid; rw_midtexturescalex = sidedef->scalex_mid;
@ -1761,26 +1829,27 @@ void R_StoreWallRange(INT32 start, INT32 stop)
fixed_t rowoffset = sidedef->rowoffset + sidedef->offsety_mid; fixed_t rowoffset = sidedef->rowoffset + sidedef->offsety_mid;
fixed_t texheight = textureheight[midtexture]; fixed_t texheight = textureheight[midtexture];
fixed_t scaley = abs(rw_midtexturescaley);
if (rw_midtexturescaley > 0) if (rw_midtexturescaley > 0)
{ {
if (linedef->flags & ML_NOSKEW) if (linedef->flags & ML_NOSKEW)
{ {
if (linedef->flags & ML_DONTPEGBOTTOM) if (linedef->flags & ML_DONTPEGBOTTOM)
rw_midtexturemid = FixedMul(frontsector->floorheight - viewz, rw_midtexturescaley) + texheight; rw_midtexturemid = FixedMul(frontsector->floorheight - viewz, scaley) + texheight;
else else
rw_midtexturemid = FixedMul(frontsector->ceilingheight - viewz, rw_midtexturescaley); rw_midtexturemid = FixedMul(frontsector->ceilingheight - viewz, scaley);
} }
else if (linedef->flags & ML_DONTPEGBOTTOM) else if (linedef->flags & ML_DONTPEGBOTTOM)
{ {
rw_midtexturemid = FixedMul(worldbottom, rw_midtexturescaley) + texheight; rw_midtexturemid = FixedMul(worldbottom, scaley) + texheight;
rw_midtextureslide = floorfrontslide; rw_midtextureslide = FixedMul(floorfrontslide, scaley);
} }
else else
{ {
// top of texture at top // top of texture at top
rw_midtexturemid = FixedMul(worldtop, rw_midtexturescaley); rw_midtexturemid = FixedMul(worldtop, scaley);
rw_midtextureslide = ceilingfrontslide; rw_midtextureslide = FixedMul(ceilingfrontslide, scaley);
} }
} }
else else
@ -1791,20 +1860,20 @@ void R_StoreWallRange(INT32 start, INT32 stop)
if (linedef->flags & ML_NOSKEW) if (linedef->flags & ML_NOSKEW)
{ {
if (linedef->flags & ML_DONTPEGBOTTOM) if (linedef->flags & ML_DONTPEGBOTTOM)
rw_midtexturemid = FixedMul(frontsector->floorheight - viewz, rw_midtexturescaley); rw_midtexturemid = FixedMul(frontsector->floorheight - viewz, scaley);
else else
rw_midtexturemid = FixedMul(frontsector->ceilingheight - viewz, rw_midtexturescaley) + texheight; rw_midtexturemid = FixedMul(frontsector->ceilingheight - viewz, scaley) + texheight;
} }
else if (linedef->flags & ML_DONTPEGBOTTOM) else if (linedef->flags & ML_DONTPEGBOTTOM)
{ {
rw_midtexturemid = FixedMul(worldbottom, rw_midtexturescaley); rw_midtexturemid = FixedMul(worldbottom, scaley);
rw_midtextureslide = floorfrontslide; rw_midtextureslide = FixedMul(floorfrontslide, scaley);
} }
else else
{ {
// top of texture at top // top of texture at top
rw_midtexturemid = FixedMul(worldtop, rw_midtexturescaley) + texheight; rw_midtexturemid = FixedMul(worldtop, scaley) + texheight;
rw_midtextureslide = ceilingfrontslide; rw_midtextureslide = FixedMul(ceilingfrontslide, scaley);
} }
} }
@ -2013,15 +2082,16 @@ void R_StoreWallRange(INT32 start, INT32 stop)
{ {
// top of texture at top // top of texture at top
rw_toptexturemid = worldtop; rw_toptexturemid = worldtop;
rw_toptextureslide = ceilingfrontslide; rw_toptextureslide = FixedMul(ceilingfrontslide, abs(rw_toptexturescaley));
} }
else else
{ {
rw_toptexturemid = worldhigh + texheight; rw_toptexturemid = worldhigh + texheight;
rw_toptextureslide = ceilingbackslide; rw_toptextureslide = FixedMul(ceilingbackslide, abs(rw_toptexturescaley));
} }
rw_toptexturemid = FixedMul(rw_toptexturemid, rw_toptexturescaley); rw_toptexturemid = FixedMul(rw_toptexturemid, abs(rw_toptexturescaley));
rw_toptexturemid += toprowoffset;
} }
// check BOTTOM TEXTURE // check BOTTOM TEXTURE
@ -2052,24 +2122,24 @@ void R_StoreWallRange(INT32 start, INT32 stop)
// bottom of texture at bottom // bottom of texture at bottom
// top of texture at top // top of texture at top
rw_bottomtexturemid = worldbottom; rw_bottomtexturemid = worldbottom;
rw_bottomtextureslide = floorfrontslide; rw_bottomtextureslide = FixedMul(floorfrontslide, abs(rw_bottomtexturescaley));
} }
else else
{ {
// top of texture at top // top of texture at top
rw_bottomtexturemid = worldlow; rw_bottomtexturemid = worldlow;
rw_bottomtextureslide = floorbackslide; rw_bottomtextureslide = FixedMul(floorbackslide, abs(rw_bottomtexturescaley));
} }
rw_bottomtexturemid = FixedMul(rw_bottomtexturemid, rw_bottomtexturescaley); rw_bottomtexturemid = FixedMul(rw_bottomtexturemid, abs(rw_bottomtexturescaley));
}
rw_toptexturemid += toprowoffset;
rw_bottomtexturemid += botrowoffset; rw_bottomtexturemid += botrowoffset;
}
// allocate space for masked texture tables // allocate space for masked texture tables
R_AllocTextureColumnTables(rw_stopx - start); R_AllocTextureColumnTables(rw_stopx - start);
texcoltables = true;
if (frontsector && backsector && !Tag_Compare(&frontsector->tags, &backsector->tags) && (backsector->ffloors || frontsector->ffloors)) if (frontsector && backsector && !Tag_Compare(&frontsector->tags, &backsector->tags) && (backsector->ffloors || frontsector->ffloors))
{ {
ffloor_t *rover; ffloor_t *rover;
@ -2268,7 +2338,8 @@ void R_StoreWallRange(INT32 start, INT32 stop)
ds_p->maskedtexturecol = maskedtexturecol = curtexturecolumntable - rw_x; ds_p->maskedtexturecol = maskedtexturecol = curtexturecolumntable - rw_x;
curtexturecolumntable += rw_stopx - rw_x; curtexturecolumntable += rw_stopx - rw_x;
maskedtextureheight = ds_p->maskedtextureheight; // note to red, this == &(ds_p->maskedtextureheight[0]) ds_p->maskedtextureheight = maskedtextureheight = curtexturecolumntable - rw_x;
curtexturecolumntable += rw_stopx - rw_x;
maskedtexture = true; maskedtexture = true;
@ -2310,13 +2381,14 @@ void R_StoreWallRange(INT32 start, INT32 stop)
} }
} }
rw_midtexturemid = FixedMul(rw_midtexturemid, rw_midtexturescaley); rw_midtexturemid = FixedMul(rw_midtexturemid, abs(rw_midtexturescaley));
rw_midtextureback = FixedMul(rw_midtextureback, rw_midtexturescaley); rw_midtextureback = FixedMul(rw_midtextureback, abs(rw_midtexturescaley));
rw_midtextureslide = FixedMul(rw_midtextureslide, abs(rw_midtexturescaley));
rw_midtexturebackslide = FixedMul(rw_midtexturebackslide, abs(rw_midtexturescaley));
rw_midtexturemid += sidedef->rowoffset + sidedef->offsety_mid; rw_midtexturemid += sidedef->rowoffset + sidedef->offsety_mid;
rw_midtextureback += sidedef->rowoffset + sidedef->offsety_mid; rw_midtextureback += sidedef->rowoffset + sidedef->offsety_mid;
maskedtexture = true;
} }
} }
@ -2440,7 +2512,7 @@ void R_StoreWallRange(INT32 start, INT32 stop)
if (frontsector->numlights) if (frontsector->numlights)
{ {
dc_numlights = frontsector->numlights; dc_numlights = frontsector->numlights;
if (dc_numlights >= dc_maxlights) if (dc_numlights > dc_maxlights)
{ {
dc_maxlights = dc_numlights; dc_maxlights = dc_numlights;
dc_lightlist = Z_Realloc(dc_lightlist, sizeof (*dc_lightlist) * dc_maxlights, PU_STATIC, NULL); dc_lightlist = Z_Realloc(dc_lightlist, sizeof (*dc_lightlist) * dc_maxlights, PU_STATIC, NULL);

View file

@ -658,12 +658,31 @@ void R_DrawMaskedColumn(column_t *column, unsigned lengthcol)
static UINT8 *flippedcol = NULL; static UINT8 *flippedcol = NULL;
static size_t flippedcolsize = 0; static size_t flippedcolsize = 0;
void R_DrawFlippedPost(UINT8 *source, unsigned length, void (*drawcolfunc)(void))
{
if (!length)
return;
if (!flippedcolsize || length > flippedcolsize)
{
flippedcolsize = length;
flippedcol = Z_Realloc(flippedcol, length, PU_STATIC, NULL);
}
dc_source = flippedcol;
for (UINT8 *s = (UINT8 *)source, *d = flippedcol+length-1; d >= flippedcol; s++)
*d-- = *s;
drawcolfunc();
}
void R_DrawFlippedMaskedColumn(column_t *column, unsigned lengthcol) void R_DrawFlippedMaskedColumn(column_t *column, unsigned lengthcol)
{ {
INT32 topscreen; INT32 topscreen;
INT32 bottomscreen; INT32 bottomscreen;
fixed_t basetexturemid = dc_texturemid; fixed_t basetexturemid = dc_texturemid;
UINT8 *d,*s; INT32 topdelta;
for (unsigned i = 0; i < column->num_posts; i++) for (unsigned i = 0; i < column->num_posts; i++)
{ {
@ -671,7 +690,7 @@ void R_DrawFlippedMaskedColumn(column_t *column, unsigned lengthcol)
if (!post->length) if (!post->length)
continue; continue;
INT32 topdelta = lengthcol-post->length-post->topdelta; topdelta = lengthcol-post->length-post->topdelta;
topscreen = sprtopscreen + spryscale*topdelta; topscreen = sprtopscreen + spryscale*topdelta;
bottomscreen = sprbotscreen == INT32_MAX ? topscreen + spryscale*post->length bottomscreen = sprbotscreen == INT32_MAX ? topscreen + spryscale*post->length
: sprbotscreen + spryscale*post->length; : sprbotscreen + spryscale*post->length;
@ -698,18 +717,9 @@ void R_DrawFlippedMaskedColumn(column_t *column, unsigned lengthcol)
if (dc_yl <= dc_yh && dc_yh > 0) if (dc_yl <= dc_yh && dc_yh > 0)
{ {
if (post->length > flippedcolsize)
{
flippedcolsize = post->length;
flippedcol = Z_Realloc(flippedcol, flippedcolsize, PU_STATIC, NULL);
}
for (s = column->pixels+post->data_offset+post->length, d = flippedcol; d < flippedcol+post->length; --s)
*d++ = *s;
dc_source = flippedcol;
dc_texturemid = basetexturemid - (topdelta<<FRACBITS); dc_texturemid = basetexturemid - (topdelta<<FRACBITS);
colfunc(); R_DrawFlippedPost(column->pixels + post->data_offset, post->length, colfunc);
} }
} }

View file

@ -48,6 +48,7 @@ extern fixed_t windowbottom;
void R_DrawMaskedColumn(column_t *column, unsigned lengthcol); void R_DrawMaskedColumn(column_t *column, unsigned lengthcol);
void R_DrawFlippedMaskedColumn(column_t *column, unsigned lengthcol); void R_DrawFlippedMaskedColumn(column_t *column, unsigned lengthcol);
void R_DrawFlippedPost(UINT8 *source, unsigned length, void (*drawcolfunc)(void));
// ---------------- // ----------------
// SPRITE RENDERING // SPRITE RENDERING

View file

@ -81,7 +81,7 @@ extern angle_t tantoangle[SLOPERANGE+1];
// Utility function, called by R_PointToAngle. // Utility function, called by R_PointToAngle.
FUNCMATH unsigned SlopeDiv(unsigned num, unsigned den); FUNCMATH unsigned SlopeDiv(unsigned num, unsigned den);
// Only called by R_PointToAngleEx // Only called by R_PointToAngle64
UINT64 SlopeDivEx(unsigned int num, unsigned int den); UINT64 SlopeDivEx(unsigned int num, unsigned int den);
// 360 - angle_t(ANGLE_45) = ANGLE_315 // 360 - angle_t(ANGLE_45) = ANGLE_315