mirror of
https://github.com/zenorogue/hyperrogue.git
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262 lines
6.5 KiB
C++
262 lines
6.5 KiB
C++
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// algorithms to compute distances between mycells, and an implementation of tally counter
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namespace dhrg {
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int segmentcount;
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struct qtybox {
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int minv, maxv;
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int qty[BOXSIZE];
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int& operator [] (int i) {
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if(i>=BOXSIZE)
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throw hr_exception("not enough memory reserved -- increase BOXSIZE constant");
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return qty[i];
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}
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qtybox() { for(int i=0; i<BOXSIZE; i++) qty[i] = 0; minv = BOXSIZE; maxv = 0; }
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};
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struct segment {
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mycell *left;
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mycell *right;
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segment *nextleft;
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segment *nextright;
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segment *parent;
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segment *nextchild;
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segment *firstchild;
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qtybox qty;
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int seen;
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segment() { seen = -1; segmentcount++; }
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~segment() { segmentcount--; }
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};
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segment *getsegment(mycell *pleft, mycell *pright, int setid, bool docreate = true) {
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pleft->build(); pright->build();
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segment *c1 = pleft->byleft[setid];
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while(c1) {
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if(c1->right == pright) {
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return c1;
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}
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c1 = c1 -> nextleft;
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}
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if(!docreate) return c1;
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segment *p = new segment;
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p->left = pleft;
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p->right = pright;
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p->nextleft = pleft->byleft[setid]; pleft->byleft[setid] = p;
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p->nextright = pright->byright[setid]; pright->byright[setid] = p;
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p->nextchild = NULL; p->firstchild = NULL;
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if(pleft->leftparent) {
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p->parent = getsegment(pleft->leftparent, pright->rightparent, setid);
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p->nextchild = p->parent->firstchild;
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p->parent->firstchild = p;
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}
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else
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p->parent = NULL;
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#ifdef LONG_BRACKETS
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if(pleft != pright) {
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pleft = pleft->grightsibling();
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int slen = 0;
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while(pleft != pright) {
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segmentlist *n = new segmentlist;
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slen++;
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n->s = p;
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n->next = pleft->bracketing;
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pleft->bracketing = n;
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pleft = pleft->grightsibling();
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}
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if(slen > 10) throw hr_exception("bad bracket");
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}
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#endif
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return p;
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}
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ll tally[MAXDIST];
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ll *whichtally = tally;
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vector<segment*> acknowledged;
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void tallybox(qtybox& box, int d, int mul) {
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for(int i=box.minv; i<box.maxv; i++)
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whichtally[i+d] += box[i] * mul;
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}
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void acknowledge(segment *p, int d) {
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if(!p) return;
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if(p->seen == -1) {
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p->seen = d;
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acknowledged.emplace_back(p);
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}
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else if(p->seen > d)
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p->seen = d;
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}
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void acknowledgments(int mul) {
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for(segment* p: acknowledged) {
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tallybox(p->qty, p->seen, mul);
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segment *p2 = p->parent;
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int dist = 1;
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while(p2) {
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if(p2->seen != -1) {
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tallybox(p->qty, p2->seen+dist, -mul);
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break;
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}
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p2=p2->parent; dist++;
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}
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p->seen = -1;
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}
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acknowledged.clear();
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}
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void trim(qtybox& b) {
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while(b.minv < b.maxv && !b[b.minv]) b.minv++;
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if(b.minv == b.maxv) b.minv = BOXSIZE, b.maxv = 0;
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else while(!b[b.maxv-1]) b.maxv--;
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}
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void add_to_set(mycell *c, int mul, int setid) {
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// assume mul does not equal 0 !
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segment *p = getsegment(c, c, setid);
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int d = 0;
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while(p) {
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p->qty[d] += mul;
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if(p->qty[d]) {
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p->qty.minv = min(p->qty.minv, d);
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p->qty.maxv = max(p->qty.maxv, d+1);
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}
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else trim(p->qty);
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d++; p = p->parent;
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}
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}
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int segmentdist(segment *p1, segment *p2, int d);
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void build_ack(mycell *c, int setid) {
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segment *p = getsegment(c, c, setid);
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int d = 0;
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#ifdef LONG_BRACKETS
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segmentlist *brackets = c->bracketing;
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while(brackets) {
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acknowledge(brackets->s, 0);
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brackets = brackets->next;
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}
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#else
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acknowledge(getsegment(c->gleftsibling(), c->grightsibling(), setid, false), 0); // larger!
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#endif
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while(p) {
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if(p->left != p->right) {
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mycell *cc = p->left->grightsibling();
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while(cc != p->right) {
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acknowledge(getsegment(cc, cc, setid, false), d);
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cc = cc->grightsibling();
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}
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}
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int sl = cgi.expansion->sibling_limit;
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mycell *mright = p->right;
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mycell *mright0 = mright;
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for(int u=0; u<=sl; u++) {
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mright->build();
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segment *mrightbyleft = mright->byleft[setid];
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while(mrightbyleft) {
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if(u == 3 && p->right->rightparent == mright->leftparent)
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acknowledge(mrightbyleft, d+2);
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else if(u > 3)
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acknowledge(mrightbyleft, segmentdist(getsegment(mright0, mright0, setid), mrightbyleft, d));
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else
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acknowledge(mrightbyleft, d+u);
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mrightbyleft = mrightbyleft->nextleft;
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}
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mright=mright->grightsibling();
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}
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mycell *mleft = p->left;
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mycell *mleft0 = mleft;
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for(int u=0; u<=sl; u++) {
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mleft->build();
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segment *mleftbyright = mleft->byright[setid];
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while(mleftbyright) {
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if(u == 3 && p->left -> leftparent == mleft->rightparent)
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acknowledge(mleftbyright, d+2);
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else if(u > 3)
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acknowledge(mleftbyright, segmentdist(mleftbyright, getsegment(mleft0, mleft0, setid), d));
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else
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acknowledge(mleftbyright, d+u);
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mleftbyright = mleftbyright->nextright;
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}
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mleft=mleft->gleftsibling();
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}
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// go forth
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d++; p = p->parent;
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}
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}
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void add_to_tally(mycell *c, int mul, int setid) {
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build_ack(c, setid);
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acknowledgments(mul);
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}
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bool is_insegment(mycell *c, segment *p) {
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mycell *p1 = p->left;
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mycell *p2 = p->right;
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while(true) {
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if(c == p1) return true;
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if(p1 == p2) return false;
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p1 = p1->grightsibling();
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}
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}
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int segmentdist(segment *p1, segment *p2, int d) {
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if(p1->left == p1->right && is_insegment(p1->left, p2)) return d;
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if(p2->left == p2->right && is_insegment(p2->left, p1)) return d;
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int best = 1000000;
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while(true) {
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if(d >= best) return best;
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mycell *mright;
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int sl = cgi.expansion->sibling_limit;
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mright = p1->right;
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for(int u=0; u<=sl; u++) {
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mright->build();
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if(mright == p2->left) best = min(best, d+u);
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mright = mright->grightsibling();
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}
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mright = p2->right;
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for(int u=0; u<=sl; u++) {
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mright->build();
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if(mright == p1->left) best = min(best, d+u);
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mright = mright->grightsibling();
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}
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p1 = p1->parent;
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p2 = p2->parent;
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d += 2;
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}
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}
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int quickdist(mycell *c1, mycell *c2, int setid=0) {
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int d = 0;
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c1->build();
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c2->build();
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int d1 = c1->lev;
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int d2 = c2->lev;
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segment *p1 = getsegment(c1, c1, setid);
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segment *p2 = getsegment(c2, c2, setid);
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while(d1>d2) { p1 = p1->parent; d1--; d++; }
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while(d2>d1) { p2 = p2->parent; d2--; d++; }
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return segmentdist(p1, p2, d);
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}
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}
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