mirror of
https://github.com/zenorogue/hyperrogue.git
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285 lines
6.8 KiB
C++
285 lines
6.8 KiB
C++
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// mycell -- information about the given vertex of a triangulation
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// cell is the relevant struct from HyperRogue; we do not use cell directly to conserve memory
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namespace dhrg {
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int mycellcount;
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struct segmentlist {
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segment *s;
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segmentlist *next;
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};
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struct mycell {
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#ifdef BUILD_ON_HR
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cell *c;
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#else
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int type;
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#endif
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int lev;
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mycell *leftparent, *rightparent;
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mycell *leftsibling, *rightsibling;
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mycell *leftchild;
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#ifdef LONG_BRACKETS
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segmentlist* bracketing;
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#endif
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#ifdef BUILD_ON_HR
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mycell(cell *_c) : c(_c) {
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leftparent = rightparent =
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leftsibling = rightsibling =
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NULL;
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#ifdef LONG_BRACKETS
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bracketing = NULL;
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#endif
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mycellcount++;
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for(int i=0; i<SETS; i++)
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byleft[i] = byright[i] = NULL;
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}
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#else
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mycell() {
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leftsibling = rightsibling = leftchild = NULL;
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mycellcount++;
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for(int i=0; i<SETS; i++)
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byleft[i] = byright[i] = NULL;
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#ifdef LONG_BRACKETS
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bracketing = NULL;
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#endif
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}
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#endif
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segment *byleft[SETS];
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segment *byright[SETS];
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~mycell() { mycellcount--; }
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#ifdef BUILD_ON_HR
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void build();
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mycell *grightsibling() { return rightsibling; }
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mycell *gleftsibling() { return leftsibling; }
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mycell *gleftchild() { return leftchild; }
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void gchildren() {}
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cell *ascell() { return c; }
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int gettype() { return celltype(c); }
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#else
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void build() {}
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mycell *grightsibling();
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mycell *gleftsibling();
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mycell *gleftchild();
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void gchildren();
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cell *ascell();
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int gettype() { return type; }
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#endif
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};
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#ifdef BUILD_ON_HR
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map<cell*, mycell*> mymap;
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mycell *find_mycell(cell *c) {
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mycell*& mc = mymap[c];
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if(mc == NULL) mc = new mycell(c);
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return mc;
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}
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void mycell::build() {
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const auto m = this;
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if(m->leftsibling) return; // already computed
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cell *c2[MAX_EDGE+1];
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int dist[MAX_EDGE+1];
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int t = m->c->type;
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int d = celldist(m->c);
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m->lev = d;
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if(d == 0) {
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m->leftsibling = m->rightsibling = m;
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m->leftchild = find_mycell(createMov(m->c,0));
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forCellCM(c2, croot()) find_mycell(c2)->build();
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}
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else {
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for(int i=0; i<t; i++) c2[i] = createMov(m->c, i);
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for(int i=0; i<t; i++) dist[i] = celldist(c2[i]);
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dist[t] = dist[0]; c2[t] = c2[0];
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for(int i=0; i<t; i++) {
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if(dist[i] < d && dist[i+1] == d) {
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m->leftparent = find_mycell(c2[i]);
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m->leftsibling = find_mycell(c2[i+1]);
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m->leftchild = find_mycell(c2[(i+2)%t]);
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}
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if(dist[i] == d && dist[i+1] < d) {
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m->rightparent = find_mycell(c2[i+1]);
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m->rightsibling = find_mycell(c2[i]);
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}
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}
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}
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}
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#endif
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mycell *mroot;
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void generate_root() {
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#if BUILD_ON_HR
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mroot = find_mycell(croot());
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#else
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int origtype = cgi.expansion->rootid;
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mroot = new mycell();
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mroot->lev = 0;
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mroot->type = origtype;
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mroot->leftsibling = mroot->rightsibling = mroot;
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mroot->leftparent = mroot->rightparent = NULL;
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mycell *child;
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bool first = true;
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for(int c: cgi.expansion->children[origtype]) {
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if(first) {
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first = false;
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mroot->leftchild = child = new mycell();
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}
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else {
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child->rightsibling = new mycell();
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child->rightsibling->leftsibling = child;
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child = child->rightsibling;
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}
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child->leftparent = child->rightparent = mroot;
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child->type = c;
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child->lev = 1;
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}
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child->rightsibling = mroot->leftchild;
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mroot->leftchild->leftsibling = child;
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#endif
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}
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#ifndef BUILD_ON_HR
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/* mycell *find_mycell(cell *c) {
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printf("find_mycell not implemented\n");
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exit(1);
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} */
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mycell* mycell::gleftsibling() {
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if(leftsibling) return leftsibling;
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leftparent->gchildren();
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if(!leftsibling) {
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printf("error: no left sibling found\n");
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exit(1);
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}
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return leftsibling;
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}
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mycell* mycell::grightsibling() {
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if(rightsibling) return rightsibling;
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rightparent->gchildren();
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if(!rightsibling) {
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printf("error: no right sibling found\n");
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}
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return rightsibling;
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}
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mycell* mycell::gleftchild() {
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if(leftchild) return leftchild;
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leftchild = new mycell();
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leftchild->leftparent = gleftsibling();
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leftchild->rightparent = this;
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leftchild->lev = lev+1;
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leftchild->type = cgi.expansion->children[type][0];
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return leftchild;
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}
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void mycell::gchildren() {
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mycell *child = gleftchild();
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if(child->rightsibling) return;
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bool first = true;
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for(int c: cgi.expansion->children[type]) {
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if(first) {
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first = false;
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continue;
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}
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child->rightsibling = new mycell();
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child->rightsibling->leftsibling = child;
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child = child->rightsibling;
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child->leftparent = child->rightparent = this;
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child->type = c;
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child->lev = lev + 1;
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}
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child->rightsibling = grightsibling()->gleftchild();
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child->rightsibling->leftsibling = child;
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}
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#endif
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vector<mycell*> allchildren(mycell *m, int dir=0) {
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m->build();
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vector<mycell*> res;
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if(m->lev == 0) {
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mycell *f = mroot->leftchild;
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int origtype = cgi.expansion->rootid;
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for(int i: cgi.expansion->children[origtype]) {
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ignore(i);
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res.push_back(f);
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f = f->rightsibling;
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}
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return res;
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}
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auto m1 = m->gleftchild();
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while(true) {
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m1->build();
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bool isright = m1->rightparent == m;
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bool isleft = m1->leftparent == m;
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if(!isright && !isleft) return res;
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if(dir > 0 && !isright) ;
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else if(dir < 0 && !isleft) ;
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else res.push_back(m1);
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m1 = m1->grightsibling();
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}
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}
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vector<mycell*> allneighbors(mycell *m) {
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auto ret = allchildren(m);
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if(m->gleftsibling() != m) {
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ret.push_back(m->leftsibling);
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ret.push_back(m->grightsibling());
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}
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if(m->leftparent) {
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ret.push_back(m->leftparent);
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if(m->rightparent != m->leftparent)
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ret.push_back(m->rightparent);
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}
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return ret;
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}
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mycell *find_mycell_by_path(const string& s) {
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mycell *at = mroot;
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for(char c: s) {
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at = at->gleftchild();
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while(c > '0') c--, at = at->grightsibling();
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}
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return at;
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}
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int childindex(mycell *c) {
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mycell *p = c->rightparent->leftchild;
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int i = 0;
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while(p != c) p = p->grightsibling(), i++;
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return i;
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}
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string get_path(mycell *c) {
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string s;
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while(c != mroot) s += '0' + childindex(c), c = c->rightparent;
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reverse(s.begin(), s.end());
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return s;
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}
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#ifndef BUILD_ON_HR
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cell *mycell::ascell() {
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if(lev == 0) return croot();
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auto m = this; m->build();
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auto c = rightparent->ascell();
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int childid = 0;
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while(m != m->rightparent->leftchild)
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childid++, m = m->gleftsibling();
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if(lev == 1) return createMov(croot(), childid);
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cell *c2 = ts::child_number(c, childid, celldist);
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return c2;
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}
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#endif
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}
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