newtree/source/d_polyse.c

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/*
d_polyse.c
2000-05-22 06:58:14 +00:00
routines for drawing sets of polygons sharing the same texture
(used for Alias models)
Copyright (C) 1996-1997 Id Software, Inc.
This program is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License
as published by the Free Software Foundation; either version 2
of the License, or (at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
See the GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to:
Free Software Foundation, Inc.
59 Temple Place - Suite 330
Boston, MA 02111-1307, USA
$Id$
*/
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#ifdef HAVE_CONFIG_H
# include "config.h"
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#endif
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#include "r_local.h"
#include "d_local.h"
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#include "bothdefs.h"
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// TODO: put in span spilling to shrink list size
// !!! if this is changed, it must be changed in d_polysa.s too !!!
#define DPS_MAXSPANS MAXHEIGHT+1
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// 1 extra for spanpackage that marks end
// !!! if this is changed, it must be changed in asm_draw.h too !!!
typedef struct {
void *pdest;
short *pz;
int count;
byte *ptex;
int sfrac, tfrac, light, zi;
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} spanpackage_t;
typedef struct {
int isflattop;
int numleftedges;
int *pleftedgevert0;
int *pleftedgevert1;
int *pleftedgevert2;
int numrightedges;
int *prightedgevert0;
int *prightedgevert1;
int *prightedgevert2;
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} edgetable;
int r_p0[6], r_p1[6], r_p2[6];
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byte *d_pcolormap;
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int d_aflatcolor;
int d_xdenom;
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edgetable *pedgetable;
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edgetable edgetables[12] = {
{0, 1, r_p0, r_p2, NULL, 2, r_p0, r_p1, r_p2},
{0, 2, r_p1, r_p0, r_p2, 1, r_p1, r_p2, NULL},
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{1, 1, r_p0, r_p2, NULL, 1, r_p1, r_p2, NULL},
{0, 1, r_p1, r_p0, NULL, 2, r_p1, r_p2, r_p0},
{0, 2, r_p0, r_p2, r_p1, 1, r_p0, r_p1, NULL},
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{0, 1, r_p2, r_p1, NULL, 1, r_p2, r_p0, NULL},
{0, 1, r_p2, r_p1, NULL, 2, r_p2, r_p0, r_p1},
{0, 2, r_p2, r_p1, r_p0, 1, r_p2, r_p0, NULL},
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{0, 1, r_p1, r_p0, NULL, 1, r_p1, r_p2, NULL},
{1, 1, r_p2, r_p1, NULL, 1, r_p0, r_p1, NULL},
{1, 1, r_p1, r_p0, NULL, 1, r_p2, r_p0, NULL},
{0, 1, r_p0, r_p2, NULL, 1, r_p0, r_p1, NULL},
};
// FIXME: some of these can become statics
int a_sstepxfrac, a_tstepxfrac, r_lstepx, a_ststepxwhole;
int r_sstepx, r_tstepx, r_lstepy, r_sstepy, r_tstepy;
int r_zistepx, r_zistepy;
int d_aspancount, d_countextrastep;
spanpackage_t *a_spans;
spanpackage_t *d_pedgespanpackage;
static int ystart;
byte *d_pdest, *d_ptex;
short *d_pz;
int d_sfrac, d_tfrac, d_light, d_zi;
int d_ptexextrastep, d_sfracextrastep;
int d_tfracextrastep, d_lightextrastep, d_pdestextrastep;
int d_lightbasestep, d_pdestbasestep, d_ptexbasestep;
int d_sfracbasestep, d_tfracbasestep;
int d_ziextrastep, d_zibasestep;
int d_pzextrastep, d_pzbasestep;
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typedef struct {
int quotient;
int remainder;
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} adivtab_t;
static adivtab_t adivtab[32 * 32] = {
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#include "adivtab.h"
};
byte *skintable[MAX_LBM_HEIGHT];
int skinwidth;
byte *skinstart;
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void D_PolysetDrawSpans8 (spanpackage_t * pspanpackage);
void D_PolysetCalcGradients (int skinwidth);
void D_DrawSubdiv (void);
void D_DrawNonSubdiv (void);
void D_PolysetRecursiveTriangle (int *p1, int *p2, int *p3);
void D_PolysetSetEdgeTable (void);
void D_RasterizeAliasPolySmooth (void);
void D_PolysetScanLeftEdge (int height);
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#ifndef USE_INTEL_ASM
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/*
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D_PolysetDraw
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*/
void
D_PolysetDraw (void)
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{
spanpackage_t spans[DPS_MAXSPANS + 1 +
((CACHE_SIZE - 1) / sizeof (spanpackage_t)) + 1];
// one extra because of cache line pretouching
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a_spans = (spanpackage_t *)
(((long) &spans[0] + CACHE_SIZE - 1) & ~(CACHE_SIZE - 1));
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if (r_affinetridesc.drawtype) {
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D_DrawSubdiv ();
} else {
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D_DrawNonSubdiv ();
}
}
/*
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D_PolysetDrawFinalVerts
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*/
void
D_PolysetDrawFinalVerts (finalvert_t *fv, int numverts)
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{
int i, z;
short *zbuf;
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for (i = 0; i < numverts; i++, fv++) {
// valid triangle coordinates for filling can include the bottom and
// right clip edges, due to the fill rule; these shouldn't be drawn
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if ((fv->v[0] < r_refdef.vrectright) &&
(fv->v[1] < r_refdef.vrectbottom)) {
z = fv->v[5] >> 16;
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zbuf = zspantable[fv->v[1]] + fv->v[0];
if (z >= *zbuf) {
int pix;
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*zbuf = z;
pix = skintable[fv->v[3] >> 16][fv->v[2] >> 16];
pix = ((byte *) acolormap)[pix + (fv->v[4] & 0xFF00)];
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d_viewbuffer[d_scantable[fv->v[1]] + fv->v[0]] = pix;
}
}
}
}
/*
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D_DrawSubdiv
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*/
void
D_DrawSubdiv (void)
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{
mtriangle_t *ptri;
finalvert_t *pfv, *index0, *index1, *index2;
int i;
int lnumtriangles;
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pfv = r_affinetridesc.pfinalverts;
ptri = r_affinetridesc.ptriangles;
lnumtriangles = r_affinetridesc.numtriangles;
for (i = 0; i < lnumtriangles; i++) {
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index0 = pfv + ptri[i].vertindex[0];
index1 = pfv + ptri[i].vertindex[1];
index2 = pfv + ptri[i].vertindex[2];
if (((index0->v[1] - index1->v[1]) *
(index0->v[0] - index2->v[0]) -
(index0->v[0] - index1->v[0]) *
(index0->v[1] - index2->v[1])) >= 0) {
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continue;
}
d_pcolormap = &((byte *) acolormap)[index0->v[4] & 0xFF00];
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if (ptri[i].facesfront) {
D_PolysetRecursiveTriangle (index0->v, index1->v, index2->v);
} else {
int s0, s1, s2;
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s0 = index0->v[2];
s1 = index1->v[2];
s2 = index2->v[2];
if (index0->flags & ALIAS_ONSEAM)
index0->v[2] += r_affinetridesc.seamfixupX16;
if (index1->flags & ALIAS_ONSEAM)
index1->v[2] += r_affinetridesc.seamfixupX16;
if (index2->flags & ALIAS_ONSEAM)
index2->v[2] += r_affinetridesc.seamfixupX16;
D_PolysetRecursiveTriangle (index0->v, index1->v, index2->v);
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index0->v[2] = s0;
index1->v[2] = s1;
index2->v[2] = s2;
}
}
}
/*
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D_DrawNonSubdiv
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*/
void
D_DrawNonSubdiv (void)
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{
mtriangle_t *ptri;
finalvert_t *pfv, *index0, *index1, *index2;
int i;
int lnumtriangles;
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pfv = r_affinetridesc.pfinalverts;
ptri = r_affinetridesc.ptriangles;
lnumtriangles = r_affinetridesc.numtriangles;
for (i = 0; i < lnumtriangles; i++, ptri++) {
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index0 = pfv + ptri->vertindex[0];
index1 = pfv + ptri->vertindex[1];
index2 = pfv + ptri->vertindex[2];
d_xdenom = (index0->v[1] - index1->v[1]) *
(index0->v[0] - index2->v[0]) -
(index0->v[0] - index1->v[0]) * (index0->v[1] - index2->v[1]);
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if (d_xdenom >= 0) {
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continue;
}
r_p0[0] = index0->v[0]; // u
r_p0[1] = index0->v[1]; // v
r_p0[2] = index0->v[2]; // s
r_p0[3] = index0->v[3]; // t
r_p0[4] = index0->v[4]; // light
r_p0[5] = index0->v[5]; // iz
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r_p1[0] = index1->v[0];
r_p1[1] = index1->v[1];
r_p1[2] = index1->v[2];
r_p1[3] = index1->v[3];
r_p1[4] = index1->v[4];
r_p1[5] = index1->v[5];
r_p2[0] = index2->v[0];
r_p2[1] = index2->v[1];
r_p2[2] = index2->v[2];
r_p2[3] = index2->v[3];
r_p2[4] = index2->v[4];
r_p2[5] = index2->v[5];
if (!ptri->facesfront) {
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if (index0->flags & ALIAS_ONSEAM)
r_p0[2] += r_affinetridesc.seamfixupX16;
if (index1->flags & ALIAS_ONSEAM)
r_p1[2] += r_affinetridesc.seamfixupX16;
if (index2->flags & ALIAS_ONSEAM)
r_p2[2] += r_affinetridesc.seamfixupX16;
}
D_PolysetSetEdgeTable ();
D_RasterizeAliasPolySmooth ();
}
}
/*
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D_PolysetRecursiveTriangle
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*/
void
D_PolysetRecursiveTriangle (int *lp1, int *lp2, int *lp3)
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{
int *temp;
int d;
int new[6];
int z;
short *zbuf;
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d = lp2[0] - lp1[0];
if (d < -1 || d > 1)
goto split;
d = lp2[1] - lp1[1];
if (d < -1 || d > 1)
goto split;
d = lp3[0] - lp2[0];
if (d < -1 || d > 1)
goto split2;
d = lp3[1] - lp2[1];
if (d < -1 || d > 1)
goto split2;
d = lp1[0] - lp3[0];
if (d < -1 || d > 1)
goto split3;
d = lp1[1] - lp3[1];
if (d < -1 || d > 1) {
split3:
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temp = lp1;
lp1 = lp3;
lp3 = lp2;
lp2 = temp;
goto split;
}
return; // entire tri is filled
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split2:
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temp = lp1;
lp1 = lp2;
lp2 = lp3;
lp3 = temp;
split:
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// split this edge
new[0] = (lp1[0] + lp2[0]) >> 1;
new[1] = (lp1[1] + lp2[1]) >> 1;
new[2] = (lp1[2] + lp2[2]) >> 1;
new[3] = (lp1[3] + lp2[3]) >> 1;
new[5] = (lp1[5] + lp2[5]) >> 1;
// draw the point if splitting a leading edge
if (lp2[1] > lp1[1])
goto nodraw;
if ((lp2[1] == lp1[1]) && (lp2[0] < lp1[0]))
goto nodraw;
z = new[5] >> 16;
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zbuf = zspantable[new[1]] + new[0];
if (z >= *zbuf) {
int pix;
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*zbuf = z;
pix = d_pcolormap[skintable[new[3] >> 16][new[2] >> 16]];
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d_viewbuffer[d_scantable[new[1]] + new[0]] = pix;
}
nodraw:
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// recursively continue
D_PolysetRecursiveTriangle (lp3, lp1, new);
D_PolysetRecursiveTriangle (lp3, new, lp2);
}
#endif // !USE_INTEL_ASM
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/*
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D_PolysetUpdateTables
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*/
void
D_PolysetUpdateTables (void)
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{
int i;
byte *s;
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if (r_affinetridesc.skinwidth != skinwidth ||
r_affinetridesc.pskin != skinstart) {
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skinwidth = r_affinetridesc.skinwidth;
skinstart = r_affinetridesc.pskin;
s = skinstart;
for (i = 0; i < MAX_LBM_HEIGHT; i++, s += skinwidth)
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skintable[i] = s;
}
}
#ifndef USE_INTEL_ASM
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/*
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D_PolysetScanLeftEdge
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*/
void
D_PolysetScanLeftEdge (int height)
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{
do {
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d_pedgespanpackage->pdest = d_pdest;
d_pedgespanpackage->pz = d_pz;
d_pedgespanpackage->count = d_aspancount;
d_pedgespanpackage->ptex = d_ptex;
d_pedgespanpackage->sfrac = d_sfrac;
d_pedgespanpackage->tfrac = d_tfrac;
// FIXME: need to clamp l, s, t, at both ends?
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d_pedgespanpackage->light = d_light;
d_pedgespanpackage->zi = d_zi;
d_pedgespanpackage++;
errorterm += erroradjustup;
if (errorterm >= 0) {
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d_pdest += d_pdestextrastep;
d_pz += d_pzextrastep;
d_aspancount += d_countextrastep;
d_ptex += d_ptexextrastep;
d_sfrac += d_sfracextrastep;
d_ptex += d_sfrac >> 16;
d_sfrac &= 0xFFFF;
d_tfrac += d_tfracextrastep;
if (d_tfrac & 0x10000) {
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d_ptex += r_affinetridesc.skinwidth;
d_tfrac &= 0xFFFF;
}
d_light += d_lightextrastep;
d_zi += d_ziextrastep;
errorterm -= erroradjustdown;
} else {
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d_pdest += d_pdestbasestep;
d_pz += d_pzbasestep;
d_aspancount += ubasestep;
d_ptex += d_ptexbasestep;
d_sfrac += d_sfracbasestep;
d_ptex += d_sfrac >> 16;
d_sfrac &= 0xFFFF;
d_tfrac += d_tfracbasestep;
if (d_tfrac & 0x10000) {
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d_ptex += r_affinetridesc.skinwidth;
d_tfrac &= 0xFFFF;
}
d_light += d_lightbasestep;
d_zi += d_zibasestep;
}
} while (--height);
}
#endif // !USE_INTEL_ASM
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/*
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D_PolysetSetUpForLineScan
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*/
void
D_PolysetSetUpForLineScan (fixed8_t startvertu, fixed8_t startvertv,
fixed8_t endvertu, fixed8_t endvertv)
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{
double dm, dn;
int tm, tn;
adivtab_t *ptemp;
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// TODO: implement x86 version
errorterm = -1;
tm = endvertu - startvertu;
tn = endvertv - startvertv;
if (((tm <= 16) && (tm >= -15)) && ((tn <= 16) && (tn >= -15))) {
ptemp = &adivtab[((tm + 15) << 5) + (tn + 15)];
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ubasestep = ptemp->quotient;
erroradjustup = ptemp->remainder;
erroradjustdown = tn;
} else {
dm = (double) tm;
dn = (double) tn;
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FloorDivMod (dm, dn, &ubasestep, &erroradjustup);
erroradjustdown = dn;
}
}
#ifndef USE_INTEL_ASM
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/*
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D_PolysetCalcGradients
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*/
void
D_PolysetCalcGradients (int skinwidth)
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{
float xstepdenominv, ystepdenominv, t0, t1;
float p01_minus_p21, p11_minus_p21, p00_minus_p20, p10_minus_p20;
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p00_minus_p20 = r_p0[0] - r_p2[0];
p01_minus_p21 = r_p0[1] - r_p2[1];
p10_minus_p20 = r_p1[0] - r_p2[0];
p11_minus_p21 = r_p1[1] - r_p2[1];
xstepdenominv = 1.0 / (float) d_xdenom;
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ystepdenominv = -xstepdenominv;
// ceil () for light so positive steps are exaggerated, negative steps
// diminished, pushing us away from underflow toward overflow. Underflow is
// very visible, overflow is very unlikely, because of ambient lighting
t0 = r_p0[4] - r_p2[4];
t1 = r_p1[4] - r_p2[4];
r_lstepx = (int)
ceil ((t1 * p01_minus_p21 - t0 * p11_minus_p21) * xstepdenominv);
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r_lstepy = (int)
ceil ((t1 * p00_minus_p20 - t0 * p10_minus_p20) * ystepdenominv);
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t0 = r_p0[2] - r_p2[2];
t1 = r_p1[2] - r_p2[2];
r_sstepx = (int) ((t1 * p01_minus_p21 - t0 * p11_minus_p21) *
xstepdenominv);
r_sstepy = (int) ((t1 * p00_minus_p20 - t0 * p10_minus_p20) *
ystepdenominv);
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t0 = r_p0[3] - r_p2[3];
t1 = r_p1[3] - r_p2[3];
r_tstepx = (int) ((t1 * p01_minus_p21 - t0 * p11_minus_p21) *
xstepdenominv);
r_tstepy = (int) ((t1 * p00_minus_p20 - t0 * p10_minus_p20) *
ystepdenominv);
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t0 = r_p0[5] - r_p2[5];
t1 = r_p1[5] - r_p2[5];
r_zistepx = (int) ((t1 * p01_minus_p21 - t0 * p11_minus_p21) *
xstepdenominv);
r_zistepy = (int) ((t1 * p00_minus_p20 - t0 * p10_minus_p20) *
ystepdenominv);
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#ifdef USE_INTEL_ASM
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a_sstepxfrac = r_sstepx << 16;
a_tstepxfrac = r_tstepx << 16;
#else
a_sstepxfrac = r_sstepx & 0xFFFF;
a_tstepxfrac = r_tstepx & 0xFFFF;
#endif
a_ststepxwhole = skinwidth * (r_tstepx >> 16) + (r_sstepx >> 16);
}
#endif // !USE_INTEL_ASM
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byte gelmap[256];
void
InitGel (byte * palette)
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{
int i;
int r;
for (i = 0; i < 256; i++) {
// r = (palette[i*3]>>4);
r =
(palette[i * 3] + palette[i * 3 + 1] +
palette[i * 3 + 2]) / (16 * 3);
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gelmap[i] = /* 64 */ 0 + r;
}
}
#ifndef USE_INTEL_ASM
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/*
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D_PolysetDrawSpans8
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*/
void
D_PolysetDrawSpans8 (spanpackage_t * pspanpackage)
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{
int lcount;
byte *lpdest;
byte *lptex;
int lsfrac, ltfrac;
int llight;
int lzi;
short *lpz;
do {
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lcount = d_aspancount - pspanpackage->count;
errorterm += erroradjustup;
if (errorterm >= 0) {
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d_aspancount += d_countextrastep;
errorterm -= erroradjustdown;
} else {
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d_aspancount += ubasestep;
}
if (lcount) {
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lpdest = pspanpackage->pdest;
lptex = pspanpackage->ptex;
lpz = pspanpackage->pz;
lsfrac = pspanpackage->sfrac;
ltfrac = pspanpackage->tfrac;
llight = pspanpackage->light;
lzi = pspanpackage->zi;
do {
if ((lzi >> 16) >= *lpz) {
*lpdest = ((byte *) acolormap)[*lptex + (llight & 0xFF00)];
// gel mapping *lpdest = gelmap[*lpdest];
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*lpz = lzi >> 16;
}
lpdest++;
lzi += r_zistepx;
lpz++;
llight += r_lstepx;
lptex += a_ststepxwhole;
lsfrac += a_sstepxfrac;
lptex += lsfrac >> 16;
lsfrac &= 0xFFFF;
ltfrac += a_tstepxfrac;
if (ltfrac & 0x10000) {
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lptex += r_affinetridesc.skinwidth;
ltfrac &= 0xFFFF;
}
} while (--lcount);
}
pspanpackage++;
} while (pspanpackage->count != -999999);
}
#endif // !USE_INTEL_ASM
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/*
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D_PolysetFillSpans8
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*/
void
D_PolysetFillSpans8 (spanpackage_t * pspanpackage)
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{
int color;
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// FIXME: do z buffering
color = d_aflatcolor++;
while (1) {
int lcount;
byte *lpdest;
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lcount = pspanpackage->count;
if (lcount == -1)
return;
if (lcount) {
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lpdest = pspanpackage->pdest;
do {
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*lpdest++ = color;
} while (--lcount);
}
pspanpackage++;
}
}
/*
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D_RasterizeAliasPolySmooth
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*/
void
D_RasterizeAliasPolySmooth (void)
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{
int initialleftheight, initialrightheight;
int *plefttop, *prighttop, *pleftbottom, *prightbottom;
int working_lstepx, originalcount;
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plefttop = pedgetable->pleftedgevert0;
prighttop = pedgetable->prightedgevert0;
pleftbottom = pedgetable->pleftedgevert1;
prightbottom = pedgetable->prightedgevert1;
initialleftheight = pleftbottom[1] - plefttop[1];
initialrightheight = prightbottom[1] - prighttop[1];
//
// set the s, t, and light gradients, which are consistent across the triangle
// because being a triangle, things are affine
//
D_PolysetCalcGradients (r_affinetridesc.skinwidth);
//
// rasterize the polygon
//
//
// scan out the top (and possibly only) part of the left edge
//
D_PolysetSetUpForLineScan (plefttop[0], plefttop[1],
pleftbottom[0], pleftbottom[1]);
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d_pedgespanpackage = a_spans;
ystart = plefttop[1];
d_aspancount = plefttop[0] - prighttop[0];
d_ptex = (byte *) r_affinetridesc.pskin + (plefttop[2] >> 16) +
(plefttop[3] >> 16) * r_affinetridesc.skinwidth;
#ifdef USE_INTEL_ASM
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d_sfrac = (plefttop[2] & 0xFFFF) << 16;
d_tfrac = (plefttop[3] & 0xFFFF) << 16;
d_pzbasestep = (d_zwidth + ubasestep) << 1;
d_pzextrastep = d_pzbasestep + 2;
#else
d_sfrac = plefttop[2] & 0xFFFF;
d_tfrac = plefttop[3] & 0xFFFF;
d_pzbasestep = d_zwidth + ubasestep;
d_pzextrastep = d_pzbasestep + 1;
#endif
d_light = plefttop[4];
d_zi = plefttop[5];
d_pdestbasestep = screenwidth + ubasestep;
d_pdestextrastep = d_pdestbasestep + 1;
d_pdest = (byte *) d_viewbuffer + ystart * screenwidth + plefttop[0];
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d_pz = d_pzbuffer + ystart * d_zwidth + plefttop[0];
// TODO: can reuse partial expressions here
// for negative steps in x along left edge, bias toward overflow rather than
// underflow (sort of turning the floor () we did in the gradient calcs into
// ceil (), but plus a little bit)
if (ubasestep < 0)
working_lstepx = r_lstepx - 1;
else
working_lstepx = r_lstepx;
d_countextrastep = ubasestep + 1;
d_ptexbasestep = ((r_sstepy + r_sstepx * ubasestep) >> 16) +
((r_tstepy + r_tstepx * ubasestep) >> 16) * r_affinetridesc.skinwidth;
#ifdef USE_INTEL_ASM
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d_sfracbasestep = (r_sstepy + r_sstepx * ubasestep) << 16;
d_tfracbasestep = (r_tstepy + r_tstepx * ubasestep) << 16;
#else
d_sfracbasestep = (r_sstepy + r_sstepx * ubasestep) & 0xFFFF;
d_tfracbasestep = (r_tstepy + r_tstepx * ubasestep) & 0xFFFF;
#endif
d_lightbasestep = r_lstepy + working_lstepx * ubasestep;
d_zibasestep = r_zistepy + r_zistepx * ubasestep;
d_ptexextrastep = ((r_sstepy + r_sstepx * d_countextrastep) >> 16) +
((r_tstepy + r_tstepx * d_countextrastep) >> 16) *
r_affinetridesc.skinwidth;
#ifdef USE_INTEL_ASM
d_sfracextrastep = (r_sstepy + r_sstepx * d_countextrastep) << 16;
d_tfracextrastep = (r_tstepy + r_tstepx * d_countextrastep) << 16;
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#else
d_sfracextrastep = (r_sstepy + r_sstepx * d_countextrastep) & 0xFFFF;
d_tfracextrastep = (r_tstepy + r_tstepx * d_countextrastep) & 0xFFFF;
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#endif
d_lightextrastep = d_lightbasestep + working_lstepx;
d_ziextrastep = d_zibasestep + r_zistepx;
D_PolysetScanLeftEdge (initialleftheight);
//
// scan out the bottom part of the left edge, if it exists
//
if (pedgetable->numleftedges == 2) {
int height;
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plefttop = pleftbottom;
pleftbottom = pedgetable->pleftedgevert2;
D_PolysetSetUpForLineScan (plefttop[0], plefttop[1],
pleftbottom[0], pleftbottom[1]);
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height = pleftbottom[1] - plefttop[1];
// TODO: make this a function; modularize this function in general
ystart = plefttop[1];
d_aspancount = plefttop[0] - prighttop[0];
d_ptex = (byte *) r_affinetridesc.pskin + (plefttop[2] >> 16) +
(plefttop[3] >> 16) * r_affinetridesc.skinwidth;
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d_sfrac = 0;
d_tfrac = 0;
d_light = plefttop[4];
d_zi = plefttop[5];
d_pdestbasestep = screenwidth + ubasestep;
d_pdestextrastep = d_pdestbasestep + 1;
d_pdest = (byte *) d_viewbuffer + ystart * screenwidth + plefttop[0];
#ifdef USE_INTEL_ASM
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d_pzbasestep = (d_zwidth + ubasestep) << 1;
d_pzextrastep = d_pzbasestep + 2;
#else
d_pzbasestep = d_zwidth + ubasestep;
d_pzextrastep = d_pzbasestep + 1;
#endif
d_pz = d_pzbuffer + ystart * d_zwidth + plefttop[0];
if (ubasestep < 0)
working_lstepx = r_lstepx - 1;
else
working_lstepx = r_lstepx;
d_countextrastep = ubasestep + 1;
d_ptexbasestep = ((r_sstepy + r_sstepx * ubasestep) >> 16) +
((r_tstepy + r_tstepx * ubasestep) >> 16) *
r_affinetridesc.skinwidth;
#ifdef USE_INTEL_ASM
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d_sfracbasestep = (r_sstepy + r_sstepx * ubasestep) << 16;
d_tfracbasestep = (r_tstepy + r_tstepx * ubasestep) << 16;
#else
d_sfracbasestep = (r_sstepy + r_sstepx * ubasestep) & 0xFFFF;
d_tfracbasestep = (r_tstepy + r_tstepx * ubasestep) & 0xFFFF;
#endif
d_lightbasestep = r_lstepy + working_lstepx * ubasestep;
d_zibasestep = r_zistepy + r_zistepx * ubasestep;
d_ptexextrastep = ((r_sstepy + r_sstepx * d_countextrastep) >> 16) +
((r_tstepy + r_tstepx * d_countextrastep) >> 16) *
r_affinetridesc.skinwidth;
#ifdef USE_INTEL_ASM
d_sfracextrastep =
((r_sstepy + r_sstepx * d_countextrastep) & 0xFFFF) << 16;
d_tfracextrastep =
((r_tstepy + r_tstepx * d_countextrastep) & 0xFFFF) << 16;
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#else
d_sfracextrastep = (r_sstepy + r_sstepx * d_countextrastep) & 0xFFFF;
d_tfracextrastep = (r_tstepy + r_tstepx * d_countextrastep) & 0xFFFF;
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#endif
d_lightextrastep = d_lightbasestep + working_lstepx;
d_ziextrastep = d_zibasestep + r_zistepx;
D_PolysetScanLeftEdge (height);
}
// scan out the top (and possibly only) part of the right edge, updating the
// count field
d_pedgespanpackage = a_spans;
D_PolysetSetUpForLineScan (prighttop[0], prighttop[1],
prightbottom[0], prightbottom[1]);
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d_aspancount = 0;
d_countextrastep = ubasestep + 1;
originalcount = a_spans[initialrightheight].count;
a_spans[initialrightheight].count = -999999; // mark end of the
// spanpackages
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D_PolysetDrawSpans8 (a_spans);
// scan out the bottom part of the right edge, if it exists
if (pedgetable->numrightedges == 2) {
int height;
spanpackage_t *pstart;
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pstart = a_spans + initialrightheight;
pstart->count = originalcount;
d_aspancount = prightbottom[0] - prighttop[0];
prighttop = prightbottom;
prightbottom = pedgetable->prightedgevert2;
height = prightbottom[1] - prighttop[1];
D_PolysetSetUpForLineScan (prighttop[0], prighttop[1],
prightbottom[0], prightbottom[1]);
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d_countextrastep = ubasestep + 1;
a_spans[initialrightheight + height].count = -999999;
// mark end of the spanpackages
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D_PolysetDrawSpans8 (pstart);
}
}
/*
2001-02-09 02:53:09 +00:00
D_PolysetSetEdgeTable
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*/
void
D_PolysetSetEdgeTable (void)
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{
int edgetableindex;
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edgetableindex = 0; // assume the vertices are already in
// top to bottom order
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//
// determine which edges are right & left, and the order in which
// to rasterize them
//
if (r_p0[1] >= r_p1[1]) {
if (r_p0[1] == r_p1[1]) {
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if (r_p0[1] < r_p2[1])
pedgetable = &edgetables[2];
else
pedgetable = &edgetables[5];
return;
} else {
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edgetableindex = 1;
}
}
if (r_p0[1] == r_p2[1]) {
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if (edgetableindex)
pedgetable = &edgetables[8];
else
pedgetable = &edgetables[9];
return;
} else if (r_p1[1] == r_p2[1]) {
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if (edgetableindex)
pedgetable = &edgetables[10];
else
pedgetable = &edgetables[11];
return;
}
if (r_p0[1] > r_p2[1])
edgetableindex += 2;
if (r_p1[1] > r_p2[1])
edgetableindex += 4;
pedgetable = &edgetables[edgetableindex];
}
#if 0
void
D_PolysetRecursiveDrawLine (int *lp1, int *lp2)
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{
int d;
int new[6];
int ofs;
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d = lp2[0] - lp1[0];
if (d < -1 || d > 1)
goto split;
d = lp2[1] - lp1[1];
if (d < -1 || d > 1)
goto split;
return; // line is completed
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split:
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// split this edge
new[0] = (lp1[0] + lp2[0]) >> 1;
new[1] = (lp1[1] + lp2[1]) >> 1;
new[5] = (lp1[5] + lp2[5]) >> 1;
new[2] = (lp1[2] + lp2[2]) >> 1;
new[3] = (lp1[3] + lp2[3]) >> 1;
new[4] = (lp1[4] + lp2[4]) >> 1;
// draw the point
ofs = d_scantable[new[1]] + new[0];
if (new[5] > d_pzbuffer[ofs]) {
int pix;
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d_pzbuffer[ofs] = new[5];
pix = skintable[new[3] >> 16][new[2] >> 16];
// pix = ((byte *)acolormap)[pix + (new[4] & 0xFF00)];
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d_viewbuffer[ofs] = pix;
}
// recursively continue
D_PolysetRecursiveDrawLine (lp1, new);
D_PolysetRecursiveDrawLine (new, lp2);
}
void
D_PolysetRecursiveTriangle2 (int *lp1, int *lp2, int *lp3)
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{
int d;
int new[4];
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d = lp2[0] - lp1[0];
if (d < -1 || d > 1)
goto split;
d = lp2[1] - lp1[1];
if (d < -1 || d > 1)
goto split;
return;
split:
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// split this edge
new[0] = (lp1[0] + lp2[0]) >> 1;
new[1] = (lp1[1] + lp2[1]) >> 1;
new[5] = (lp1[5] + lp2[5]) >> 1;
new[2] = (lp1[2] + lp2[2]) >> 1;
new[3] = (lp1[3] + lp2[3]) >> 1;
new[4] = (lp1[4] + lp2[4]) >> 1;
D_PolysetRecursiveDrawLine (new, lp3);
// recursively continue
D_PolysetRecursiveTriangle (lp1, new, lp3);
D_PolysetRecursiveTriangle (new, lp2, lp3);
}
#endif