diff --git a/src/r_draw.c b/src/r_draw.c index f4886d26..e63aa5a2 100644 --- a/src/r_draw.c +++ b/src/r_draw.c @@ -106,7 +106,7 @@ UINT8 *ds_transmap; // one of the translucency tables #ifdef ESLOPE pslope_t *ds_slope; // Current slope being used v3float_t ds_su, ds_sv, ds_sz; // Vectors for... stuff? -float focallengthf; +float focallengthf, zeroheight; #endif /** \brief Variable flat sizes diff --git a/src/r_draw.h b/src/r_draw.h index 17988753..fa2cb22d 100644 --- a/src/r_draw.h +++ b/src/r_draw.h @@ -63,7 +63,7 @@ extern UINT8 *ds_transmap; #ifdef ESLOPE pslope_t *ds_slope; // Current slope being used v3float_t ds_su, ds_sv, ds_sz; // Vectors for... stuff? -float focallengthf; +float focallengthf, zeroheight; #endif // Variable flat sizes diff --git a/src/r_draw8.c b/src/r_draw8.c index fe218f3b..71e6458b 100644 --- a/src/r_draw8.c +++ b/src/r_draw8.c @@ -527,6 +527,30 @@ void R_DrawSpan_8 (void) } #ifdef ESLOPE +// R_CalcTiltedLighting +// Exactly what it says on the tin. I wish I wasn't too lazy to explain things properly. +static size_t tiltlighting[MAXVIDWIDTH]; +void R_CalcTiltedLighting(fixed_t start, fixed_t end) +{ + // ZDoom uses a different lighting setup to us, and I couldn't figure out how to adapt their version + // of this function. Here's my own. + INT32 left = ds_x1, right = ds_x2; + fixed_t step = (end-start)/(ds_x2-ds_x1+1); + size_t i; + + // I wanna do some optimizing by checking for out-of-range segments on either side to fill in all at once, + // but I'm too bad at coding to not crash the game trying to do that. I guess this is fast enough for now... + + for (i = left; i <= right; i++) { + tiltlighting[i] = (start += step) >> FRACBITS; + if (tiltlighting[i] < 0) + tiltlighting[i] = 0; + else if (tiltlighting[i] >= MAXLIGHTSCALE) + tiltlighting[i] = MAXLIGHTSCALE-1; + } +} + + /** \brief The R_DrawTiltedSpan_8 function Draw slopes! Holy sheit! */ @@ -544,12 +568,24 @@ void R_DrawTiltedSpan_8(void) iz = ds_sz.z + ds_sz.y*(centery-ds_y) + ds_sz.x*(ds_x1-centerx); + // Lighting is simple. It's just linear interpolation from start to end + { + float planelightfloat = BASEVIDWIDTH*BASEVIDWIDTH/vid.width / (fabs(zeroheight - FIXED_TO_FLOAT(viewz))) / -21.0f; + float lightstart, lightend; + + lightend = (iz + ds_sz.x*width) * planelightfloat; + lightstart = iz * planelightfloat; + + R_CalcTiltedLighting(FLOAT_TO_FIXED(lightstart), FLOAT_TO_FIXED(lightend)); + //CONS_Printf("tilted lighting %f to %f (foc %f)\n", vz, uz, focallengthf); + } + uz = ds_su.z + ds_su.y*(centery-ds_y) + ds_su.x*(ds_x1-centerx); vz = ds_sv.z + ds_sv.y*(centery-ds_y) + ds_sv.x*(ds_x1-centerx); dest = ylookup[ds_y] + columnofs[ds_x1]; source = ds_source; - colormap = ds_colormap; + //colormap = ds_colormap; #if 0 // The "perfect" reference version of this routine. Pretty slow. // Use it only to see how things are supposed to look. @@ -559,6 +595,9 @@ void R_DrawTiltedSpan_8(void) double z = 1.f/iz; u = (INT64)(uz*z) + viewx; v = (INT64)(vz*z) + viewy; + + colormap = planezlight[tiltlighting[ds_x1++]] + (ds_colormap - colormaps); + *dest = colormap[source[((v >> nflatyshift) & nflatmask) | (u >> nflatxshift)]]; dest++; iz += ds_sz.x; @@ -596,6 +635,7 @@ void R_DrawTiltedSpan_8(void) for (i = SPANSIZE-1; i >= 0; i--) { + colormap = planezlight[tiltlighting[ds_x1++]] + (ds_colormap - colormaps); *dest = colormap[source[((v >> nflatyshift) & nflatmask) | (u >> nflatxshift)]]; dest++; u += stepu; @@ -611,6 +651,7 @@ void R_DrawTiltedSpan_8(void) { u = (INT64)(startu); v = (INT64)(startv); + colormap = planezlight[tiltlighting[ds_x1++]] + (ds_colormap - colormaps); *dest = colormap[source[((v >> nflatyshift) & nflatmask) | (u >> nflatxshift)]]; } else @@ -631,6 +672,7 @@ void R_DrawTiltedSpan_8(void) for (; width != 0; width--) { + colormap = planezlight[tiltlighting[ds_x1++]] + (ds_colormap - colormaps); *dest = colormap[source[((v >> nflatyshift) & nflatmask) | (u >> nflatxshift)]]; dest++; u += stepu; diff --git a/src/r_plane.c b/src/r_plane.c index 2839392d..c0d26811 100644 --- a/src/r_plane.c +++ b/src/r_plane.c @@ -74,7 +74,7 @@ static INT32 spanstart[MAXVIDHEIGHT]; // // texture mapping // -static lighttable_t **planezlight; +lighttable_t **planezlight; static fixed_t planeheight; //added : 10-02-98: yslopetab is what yslope used to be, @@ -327,6 +327,11 @@ void R_MapPlane(INT32 y, INT32 x1, INT32 x2) if (pindex >= MAXLIGHTZ) pindex = MAXLIGHTZ - 1; +#ifdef ESLOPE + if (currentplane->slope) + ds_colormap = colormaps; + else +#endif ds_colormap = planezlight[pindex]; if (currentplane->extra_colormap) @@ -919,24 +924,23 @@ void R_DrawSinglePlane(visplane_t *pl) break; } + xoffs = pl->xoffs; + yoffs = pl->yoffs; + planeheight = abs(pl->height - pl->viewz); + + if (light >= LIGHTLEVELS) + light = LIGHTLEVELS-1; + + if (light < 0) + light = 0; + #ifdef ESLOPE if (pl->slope) { // Potentially override other stuff for now cus we're mean. :< But draw a slope plane! // I copied ZDoom's code and adapted it to SRB2... -Red - static const float ifloatpow2[16] = - { - // ifloatpow2[i] = 1 / (1 << i) - 64.f, 32.f, 16.f, 8.f, 4.f, 2.f, 1.f, 0.5f, - 0.25f, 0.125f, 0.0625f, 0.03125f, 0.015625f, 0.0078125f, - 0.00390625f, 0.001953125f - /*, 0.0009765625f, 0.00048828125f, 0.000244140625f, - 1.220703125e-4f, 6.103515625e-5, 3.0517578125e-5*/ - }; - double lxscale, lyscale; - double xscale, yscale; v3float_t p, m, n; angle_t ang; - double zeroheight; + //double zeroheight; double vx = FIXED_TO_FLOAT(viewx); double vy = FIXED_TO_FLOAT(viewy); @@ -986,19 +990,11 @@ void R_DrawSinglePlane(visplane_t *pl) #undef SFMULT spanfunc = R_DrawTiltedSpan_8; - } + + planezlight = scalelight[light]; + } else #endif // ESLOPE - xoffs = pl->xoffs; - yoffs = pl->yoffs; - planeheight = abs(pl->height - pl->viewz); - - if (light >= LIGHTLEVELS) - light = LIGHTLEVELS-1; - - if (light < 0) - light = 0; - planezlight = zlight[light]; // set the maximum value for unsigned diff --git a/src/r_plane.h b/src/r_plane.h index b2346636..2ef49cb3 100644 --- a/src/r_plane.h +++ b/src/r_plane.h @@ -82,6 +82,8 @@ extern fixed_t cachedxstep[MAXVIDHEIGHT]; extern fixed_t cachedystep[MAXVIDHEIGHT]; extern fixed_t basexscale, baseyscale; +extern lighttable_t **planezlight; + extern fixed_t *yslope; extern fixed_t distscale[MAXVIDWIDTH];