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#include "random.h" |
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VIEWPOINT myeye; /* target view position */ |
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packrays(rod, p) /* pack ray origins and directions */ |
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float *rod; |
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register float *rod; |
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register PACKET *p; |
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{ |
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static int nmh = 0; |
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static int *mhtab; |
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FVECT ro, rd; |
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register BEAM *bp; |
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short packord[RPACKSIZ]; |
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float packdc2[RPACKSIZ]; |
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int iterleft = 3*p->nr; |
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BYTE rpos[2][2]; |
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FVECT ro, rd, rp1; |
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GCOORD gc[2]; |
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int ila[4], offset; |
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double d, sl[4]; |
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register int i, j, k; |
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double d, dc2, md2, td2; |
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int i; |
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register int ii; |
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if (!hdbcoord(gc, hdlist[p->hd], p->bi)) |
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error(CONSISTENCY, "bad beam index in packrays"); |
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/* uniqueness hash */ |
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if ((bp = hdgetbeam(hdlist[p->hd], p->bi)) != NULL) { |
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if (2*bp->nrm > nmh) { |
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if (nmh) free((char *)mhtab); |
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nmh = 2*bp->nrm + 1; |
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mhtab = (int *)malloc(nmh*sizeof(int)); |
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if (mhtab == NULL) |
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error(SYSTEM, "out of memory in packrays"); |
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} |
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for (k = nmh; k--; ) |
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mhtab[k] = -1; |
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for (i = bp->nrm; i--; ) { |
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ila[0] = hdbray(bp)[i].r[0][0]; |
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ila[1] = hdbray(bp)[i].r[0][1]; |
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ila[2] = hdbray(bp)[i].r[1][0]; |
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ila[3] = hdbray(bp)[i].r[1][1]; |
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for (k = ilhash(ila,4); mhtab[k%nmh] >= 0; k++) |
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; |
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mhtab[k%nmh] = i; |
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} |
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} |
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/* init each ray */ |
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ila[0] = p->hd; ila[1] = p->bi; |
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offset = ilhash(ila,2) + p->nc; |
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for (i = 0; i < p->nr; i++) { |
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do { /* next unique ray */ |
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multisamp(sl, 4, urand(offset+i)); |
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p->ra[i].r[0][0] = ila[0] = sl[0] * 256.; |
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p->ra[i].r[0][1] = ila[1] = sl[1] * 256.; |
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p->ra[i].r[1][0] = ila[2] = sl[2] * 256.; |
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p->ra[i].r[1][1] = ila[3] = sl[3] * 256.; |
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if (bp == NULL) |
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break; |
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for (k = ilhash(ila,4); (j = mhtab[k%nmh]) >= 0; k++) |
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if (hdbray(bp)[j].r[0][0] == |
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p->ra[i].r[0][0] && |
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hdbray(bp)[j].r[0][1] == |
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p->ra[i].r[0][1] && |
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hdbray(bp)[j].r[1][0] == |
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p->ra[i].r[1][0] && |
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hdbray(bp)[j].r[1][1] == |
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p->ra[i].r[1][1]) { |
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offset += bp->nrm - j; |
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td2 = (myeye.rng+FTINY)*(myeye.rng+FTINY); |
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for (i = 0, md2 = 0.; i < p->nr || md2 > td2; ) { |
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rpos[0][0] = frandom() * 256.; |
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rpos[0][1] = frandom() * 256.; |
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rpos[1][0] = frandom() * 256.; |
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rpos[1][1] = frandom() * 256.; |
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d = hdray(ro, rd, hdlist[p->hd], gc, rpos); |
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if (myeye.rng > FTINY) { /* check eyepoint */ |
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register int nexti; |
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|
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VSUM(rp1, ro, rd, d); |
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dc2 = dist2line(myeye.vpt, ro, rp1); |
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dc2 /= (double)(p->nr*p->nr); |
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if (i == p->nr) { /* packet full */ |
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nexti = packord[i-1]; |
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if (!iterleft--) |
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break; /* tried enough! */ |
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if (dc2 >= packdc2[nexti]) |
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continue; /* worse than worst */ |
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md2 -= packdc2[nexti]; |
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} else |
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nexti = i++; |
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md2 += packdc2[nexti] = dc2; /* new distance */ |
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for (ii = i; --ii; ) { /* insertion sort */ |
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if (dc2 > packdc2[packord[ii-1]]) |
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break; |
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} |
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} while (j >= 0); |
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d = hdray(ro, rd, hdlist[p->hd], gc, p->ra[i].r); |
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if (!vdef(OBSTRUCTIONS)) |
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d *= frandom(); /* random offset */ |
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packord[ii] = packord[ii-1]; |
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} |
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packord[ii] = nexti; |
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ii = nexti; /* put it here */ |
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} else |
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ii = i++; |
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if (p->offset != NULL) { |
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if (!vdef(OBSTRUCTIONS)) |
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d *= frandom(); /* random offset */ |
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VSUM(ro, ro, rd, d); /* advance ray */ |
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p->offset[i] = d; |
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p->offset[ii] = d; |
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} |
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VCOPY(rod, ro); |
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rod += 3; |
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VCOPY(rod, rd); |
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rod += 3; |
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p->ra[ii].r[0][0] = rpos[0][0]; |
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p->ra[ii].r[0][1] = rpos[0][1]; |
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p->ra[ii].r[1][0] = rpos[1][0]; |
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p->ra[ii].r[1][1] = rpos[1][1]; |
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VCOPY(rod+6*ii, ro); |
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VCOPY(rod+6*ii+3, rd); |
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} |
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#ifdef DEBUG |
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fprintf(stderr, "%f mean distance for target %f (%d iterations left)\n", |
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sqrt(md2), myeye.rng, iterleft); |
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#endif |
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} |
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