reflection

[dosrtxon] / src / polytmpl.h

static uint32_t SCANEDGE(struct pvertex *v0, struct pvertex *v1, struct pvertex *edge)
{
        int i;
        int32_t x, dx, dy, slope;
#ifdef GOURAUD
        int r, g, b, dr, dg, db;
        int32_t rslope, gslope, bslope;
#endif
#ifdef TEXMAP
        int32_t u, v, du, dv, uslope, vslope;
#endif
        int32_t start_idx, end_idx;

        if(v0->y > v1->y) {
                struct pvertex *tmp = v0;
                v0 = v1;
                v1 = tmp;
        }

        x = v0->x;
        dy = v1->y - v0->y;
        dx = v1->x - v0->x;
        slope = (dx << 8) / dy;
#ifdef GOURAUD
        r = (v0->r << COLOR_SHIFT);
        g = (v0->g << COLOR_SHIFT);
        b = (v0->b << COLOR_SHIFT);
        dr = (v1->r << COLOR_SHIFT) - r;
        dg = (v1->g << COLOR_SHIFT) - g;
        db = (v1->b << COLOR_SHIFT) - b;
        rslope = (dr << 8) / dy;
        gslope = (dg << 8) / dy;
        bslope = (db << 8) / dy;
#endif
#ifdef TEXMAP
        u = v0->u;
        v = v0->v;
        du = v1->u - v0->u;
        dv = v1->v - v0->v;
        uslope = (du << 8) / dy;
        vslope = (dv << 8) / dy;
#endif

        start_idx = v0->y >> 8;
        end_idx = v1->y >> 8;

        for(i=start_idx; i<end_idx; i++) {
                edge[i].x = x;
                x += slope;
#ifdef GOURAUD
                /* we'll store the color in the edge tables with COLOR_SHIFT extra bits of precision */
                edge[i].r = r;
                edge[i].g = g;
                edge[i].b = b;
                r += rslope;
                g += gslope;
                b += bslope;
#endif
#ifdef TEXMAP
                edge[i].u = u;
                edge[i].v = v;
                u += uslope;
                v += vslope;
#endif
        }

        return (uint32_t)start_idx | ((uint32_t)(end_idx - 1) << 16);
}

void POLYFILL(struct pvertex *pv, int nverts)
{
        int i;
        int topidx = 0, botidx = 0, sltop = pfill_fb.height, slbot = 0;
        struct pvertex *left, *right;
        uint16_t color;
        /* the following variables are used for interpolating horizontally accros scanlines */
#if defined(GOURAUD) || defined(TEXMAP)
        int mid;
        int32_t dx, tmp;
#else
        /* flat version, just pack the color now */
        color = PACK_RGB16(pv[0].r, pv[0].g, pv[0].b);
#endif
#ifdef GOURAUD
        int32_t r, g, b, dr, dg, db, rslope, gslope, bslope;
#endif
#ifdef TEXMAP
        int32_t u, v, du, dv, uslope, vslope;
#endif

        for(i=1; i<nverts; i++) {
                if(pv[i].y < pv[topidx].y) topidx = i;
                if(pv[i].y > pv[botidx].y) botidx = i;
        }

        int winding = 0;
        for(i=0; i<nverts; i++) {
                int next = NEXTIDX(i);
                winding += (pv[next].x - pv[i].x) * (pv[next].y + pv[i].y);
        }

        /* +1 to avoid crashing due to off-by-one rounding errors in the rasterization */
        left = alloca((pfill_fb.height + 1) * sizeof *left);
        right = alloca((pfill_fb.height + 1) * sizeof *right);

        for(i=0; i<nverts; i++) {
                int next = NEXTIDX(i);
                int32_t y0 = pv[i].y;
                int32_t y1 = pv[next].y;

                if((y0 >> 8) == (y1 >> 8)) {
                        /*if(y0 > y1) {*/
                                int i0, i1;
                                int idx = y0 >> 8;
                                if(pv[i].x < pv[next].x) {
                                        i0 = i;
                                        i1 = next;
                                } else {
                                        i0 = next;
                                        i1 = i;
                                }
                                left[idx].x = pv[i0].x;
                                right[idx].x = pv[i1].x;
#ifdef GOURAUD
                                left[idx].r = pv[i0].r << COLOR_SHIFT;
                                left[idx].g = pv[i0].g << COLOR_SHIFT;
                                left[idx].b = pv[i0].b << COLOR_SHIFT;
                                right[idx].r = pv[i1].r << COLOR_SHIFT;
                                right[idx].g = pv[i1].g << COLOR_SHIFT;
                                right[idx].b = pv[i1].b << COLOR_SHIFT;
#endif
#ifdef TEXMAP
                                left[idx].u = pv[i0].u;
                                left[idx].v = pv[i0].v;
                                right[idx].u = pv[i1].u;
                                right[idx].v = pv[i1].v;
#endif
                                if(idx > slbot) slbot = idx;
                                if(idx < sltop) sltop = idx;
                        /*}*/
                } else {
                        struct pvertex *edge;
                        uint32_t res, tmp;

                        if(winding < 0) {
                                edge = y0 > y1 ? left : right;
                        } else {
                                edge = y0 > y1 ? right : left;
                        }
                        res = SCANEDGE(pv + i, pv + next, edge);
                        tmp = (res >> 16) & 0xffff;
                        if(tmp > slbot) slbot = tmp;
                        if((tmp = res & 0xffff) < sltop) {
                                sltop = tmp;
                        }
                }
        }

        /* calculate the slopes of all attributes across the largest span out
         * of the three: middle, top, or bottom.
         */
#ifndef HIGH_QUALITY
#if defined(GOURAUD) || defined(TEXMAP)
        mid = (sltop + slbot) >> 1;
        dx = right[mid].x - left[mid].x;
        if((tmp = right[sltop].x - left[sltop].x) > dx) {
                dx = tmp;
                mid = sltop;
        }
        if((tmp = right[slbot].x - left[slbot].x) > dx) {
                dx = tmp;
                mid = slbot;
        }
        if(!dx) dx = 256;       /* avoid division by zero */
#endif
#ifdef GOURAUD
        dr = right[mid].r - left[mid].r;
        dg = right[mid].g - left[mid].g;
        db = right[mid].b - left[mid].b;
        rslope = (dr << 8) / dx;
        gslope = (dg << 8) / dx;
        bslope = (db << 8) / dx;
#endif
#ifdef TEXMAP
        du = right[mid].u - left[mid].u;
        dv = right[mid].v - left[mid].v;
        uslope = (du << 8) / dx;
        vslope = (dv << 8) / dx;
#endif
#endif  /* !defined(HIGH_QUALITY) */

        /* for each scanline ... */
        for(i=sltop; i<=slbot; i++) {
                uint16_t *pixptr;
                int32_t x;

                x = left[i].x;
                pixptr = pfill_fb.pixels + i * pfill_fb.width + (x >> 8);

#ifdef GOURAUD
                r = left[i].r;
                g = left[i].g;
                b = left[i].b;
#endif
#ifdef TEXMAP
                u = left[i].u;
                v = left[i].v;
#endif

#if defined(HIGH_QUALITY) && (defined(GOURAUD) || defined(TEXMAP))
                if(!(dx = right[i].x - left[i].x)) dx = 256;

#ifdef GOURAUD
                dr = right[i].r - left[i].r;
                dg = right[i].g - left[i].g;
                db = right[i].b - left[i].b;
                rslope = (dr << 8) / dx;
                gslope = (dg << 8) / dx;
                bslope = (db << 8) / dx;
#endif
#ifdef TEXMAP
                du = right[i].u - left[i].u;
                dv = right[i].v - left[i].v;
                uslope = (du << 8) / dx;
                vslope = (dv << 8) / dx;
#endif
#endif  /* HIGH_QUALITY */

                /* go across the scanline interpolating if necessary */
                while(x <= right[i].x) {
#if defined(GOURAUD) || defined(TEXMAP)
                        int cr, cg, cb;
#endif
#ifdef GOURAUD
                        /* we upped the color precision to while interpolating the
                         * edges, now drop the extra bits before packing
                         */
                        cr = r < 0 ? 0 : (r >> COLOR_SHIFT);
                        cg = g < 0 ? 0 : (g >> COLOR_SHIFT);
                        cb = b < 0 ? 0 : (b >> COLOR_SHIFT);
                        if(cr > 255) cr = 255;
                        if(cg > 255) cg = 255;
                        if(cb > 255) cb = 255;
                        r += rslope;
                        g += gslope;
                        b += bslope;
#endif
#ifdef TEXMAP
                        {
                                int tx = (u >> (16 - pfill_tex.xshift)) & pfill_tex.xmask;
                                int ty = (v >> (16 - pfill_tex.yshift)) & pfill_tex.ymask;
                                uint16_t texel = pfill_tex.pixels[(ty << pfill_tex.xshift) + tx];
#ifdef GOURAUD
                                /* This is not correct, should be /255, but it's much faster
                                 * to shift by 8 (/256), and won't make a huge difference
                                 */
                                cr = (cr * UNPACK_R16(texel)) >> 8;
                                cg = (cg * UNPACK_G16(texel)) >> 8;
                                cb = (cb * UNPACK_B16(texel)) >> 8;
#else
                                cr = UNPACK_R16(texel);
                                cg = UNPACK_G16(texel);
                                cb = UNPACK_B16(texel);
#endif
                        }
                        u += uslope;
                        v += vslope;
#endif
#if defined(GOURAUD) || defined(TEXMAP)
                        color = PACK_RGB16(cr, cg, cb);
#endif

#ifdef DEBUG_OVERDRAW
                        *pixptr++ += DEBUG_OVERDRAW;
#else
                        *pixptr++ = color;
#endif
                        x += 256;
                }
        }
}