missing file added

expansion.cpp

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+// HyperRogue -- expansion_analyzer
+// Copyright (C) 2011-2018 Zeno Rogue, see 'hyper.cpp' for details
+
+namespace hr {
+
+int subtype(cell *c) {
+  return patterns::getpatterninfo(c, patterns::PAT_NONE, 0).id;
+  }
+
+bignum& bignum::operator +=(const bignum& b) {
+  int K = isize(b.digits);
+  if(K > isize(digits)) digits.resize(K);
+  int carry = 0;
+  for(int i=0; i<K || carry; i++) {
+    if(i >= isize(digits)) digits.push_back(0);
+    digits[i] += carry;
+    if(i < K) digits[i] += b.digits[i];
+    if(digits[i] >= BASE) {
+      digits[i] -= BASE;
+      carry = 1;
+      }
+    else carry = 0;
+    }
+  return *this;
+  }
+
+string bignum::get_str(int max_length) {
+  if(digits.empty()) return "0";
+  string ret = its(digits.back());
+  for(int i=isize(digits)-2; i>=0; i--) {
+    if(isize(ret) > max_length && i) {
+      ret += XLAT(" (%1 more digits)", its(9 * (i+1)));
+      return ret;
+      }
+
+    ret += " ";
+    string val = its(digits[i]);
+    while(isize(val) < 9) val = "0" + val;
+    ret += val;
+    }
+  return ret;
+  }
+
+vector<int> expansion_analyzer::gettype(cell *c) {
+  vector<int> res;
+  res.push_back(subtype(c) * 4 + 2);
+  int d = celldist(c);
+  for(int i=0; i<c->type; i++) {
+    cell *c1 = c->cmove(i);
+    res.push_back(subtype(c1) * 4 + celldist(c1) - d);
+    }
+  return res;
+  }
+
+int expansion_analyzer::sample_id(cell *c) {
+  auto t = gettype(c);
+  if(codeid.count(t)) return codeid[t];
+  auto &cit = codeid[t];
+  cit = isize(samples);
+  samples.push_back(c);
+  return cit;
+  }
+  
+void expansion_analyzer::preliminary_grouping() {
+  samples.clear();
+  codeid.clear();
+  children.clear();
+  sample_id(currentmap->gamestart());
+  for(int i=0; i<isize(samples); i++) {
+    children.emplace_back();
+    auto c = samples[i];
+    int d = celldist(c);
+    for(int k=0; k<c->type; k++) {
+      cell *c1 = c->cmove(k);
+      if(celldist(c1) != d+1) continue;
+      cell *c2 = c->cmove((k+1) % c->type);
+      if(celldist(c2) != d+1) continue;
+      children.back().push_back(sample_id(c1));
+      }
+    }
+  N = isize(samples);
+  rootid = 0;
+  }
+
+void expansion_analyzer::reduce_grouping() {
+  vector<int> grouping;
+  grouping.resize(N);
+  int nogroups = 1;
+  for(int i=0; i<N; i++) grouping[i] = 0;
+  while(true) {
+    vector< pair<vector<int>, int > > childgroups(N);
+    for(int i=0; i<N; i++) {
+      childgroups[i].second = i;
+      for(int j: children[i])
+        childgroups[i].first.push_back(grouping[j]);
+      sort(childgroups[i].first.begin(), childgroups[i].first.end());
+      }
+    sort(childgroups.begin(), childgroups.end());
+    int newgroups = 0;
+    for(int i=0; i<N; i++) {
+      if(i == 0 || childgroups[i].first != childgroups[i-1].first) newgroups++;
+      grouping[childgroups[i].second] = newgroups - 1;
+      }
+    if(nogroups == newgroups) break;
+    nogroups = newgroups;
+    }
+  
+  vector<int> groupsample(nogroups);
+  for(int i=0; i<N; i++) groupsample[grouping[i]] = i;
+  vector<vector<int>> newchildren(nogroups);
+  for(int i=0; i<nogroups; i++) 
+    for(int j: children[groupsample[i]])
+      newchildren[i].push_back(grouping[j]);
+  children = move(newchildren);
+  for(auto& p: codeid) p.second = grouping[p.second];
+  N = nogroups;
+  rootid = grouping[rootid];
+  diskid = N;
+  children.push_back(children[rootid]);
+  children[diskid].push_back(diskid);
+  N++;
+  }
+
+template<class T> int size_upto(vector<T>& v, int s) {
+  int res = isize(v);
+  if(res < s) v.resize(s);
+  return res;
+  }
+
+bignum& expansion_analyzer::get_descendants(int level) {
+  if(!N) preliminary_grouping(), reduce_grouping();
+  return get_descendants(level, rootid);
+  }
+
+bignum& expansion_analyzer::get_descendants(int level, int type) {
+  auto& pd = descendants;
+  size_upto(pd, level+1);
+  for(int d=0; d<=level; d++)
+  for(int i=size_upto(pd[d], N); i<N; i++)
+    if(d == 0) pd[d][i].be(1);
+    else for(int j: children[i]) 
+      pd[d][i] += pd[d-1][j];
+  return pd[level][type];
+  }
+
+bool expansion_analyzer::verify(int id) {
+  if(id < isize(coef)) return false;
+  long long res = 0;
+  for(int t=0; t<isize(coef); t++)
+    res += coef[t] * get_descendants(id-t-1).approx_ll();
+  return res == get_descendants(id).approx_ll();
+  }
+
+int expansion_analyzer::valid(int v, int step) {
+  if(step < 0) return 0;
+  if(get_descendants(step+v+v+5).approx_int() >= bignum::BASE) return 0;
+  ld matrix[100][128];
+  for(int i=0; i<v; i++)
+  for(int j=0; j<v+1; j++)
+    matrix[i][j] = get_descendants(step+i+j).approx();
+  
+  for(int k=0; k<v; k++) {
+    int nextrow = k;
+    while(nextrow < v && std::abs(matrix[nextrow][k]) < 1e-6)
+      nextrow++;
+    if(nextrow == v) return 1;
+    if(nextrow != k) {
+      // printf("swap %d %d\n", k, nextrow);
+      for(int l=0; l<=v; l++) swap(matrix[k][l], matrix[nextrow][l]);
+      // display();
+      }
+    ld divv = 1. / matrix[k][k];
+    for(int k1=k; k1<=v; k1++) matrix[k][k1] *= divv;
+    // printf("divide %d\n", k);
+    // display();
+    for(int k1=k+1; k1<v; k1++) if(matrix[k1][k] != 0) {
+      ld coef = -matrix[k1][k];
+      for(int k2=k; k2<=v; k2++) matrix[k1][k2] += matrix[k][k2] * coef;
+      }
+    // printf("zeros below %d\n", k);
+    // display();
+    }
+  
+  for(int k=v-1; k>=0; k--)
+  for(int l=k-1; l>=0; l--)
+    if(matrix[l][k]) matrix[l][v] -= matrix[l][k] * matrix[k][v];
+  
+  coef.resize(v);
+  for(int i=0; i<v; i++) coef[i] = int(floor(matrix[v-1-i][v] + .5));
+    
+  for(int t=step+v; t<step+v+v+5; t++) if(!verify(t)) return 2;
+  tested_to = step+v+v+5;
+  while(tested_to < step+v+v+100 && get_descendants(tested_to).approx_ll() < bignum::BASE2) {
+    if(!verify(tested_to)) return 2;
+    tested_to++;
+    }
+  
+  valid_from = step+v;
+  return 3;
+  }
+
+void expansion_analyzer::find_coefficients() {
+  if(coefficients_known) return;
+  if(!N) preliminary_grouping(), reduce_grouping();
+  for(int v=1; v<25; v++) 
+  for(int step=0; step<1000; step++) { 
+    int val = valid(v, step);
+    if(val == 0) break;
+    if(val == 3) { coefficients_known = 2; return; }
+    }
+  coefficients_known = 1;
+  }
+
+ld growth;
+
+ld expansion_analyzer::get_growth() {
+  if(growth >= 1) return growth;
+  if(!N) preliminary_grouping(), reduce_grouping();
+  vector<ld> eigen(N, 1);
+  ld total;
+  for(int iter=0; iter<100000; iter++) {
+    total = 0;
+    vector<ld> neweigen(N, 0);
+    for(int i=0; i<N; i++) {
+      for(int j: children[i]) neweigen[i] += eigen[j];
+      total += neweigen[i];
+      }
+    for(int i=0; i<N; i++) eigen[i] = .1 * eigen[i] + .9 * neweigen[i] / total;
+    // for(int i=0; i<N; i++) printf("%lf ", eigen[i]); printf("total = %lf\n", total);
+    }
+  return growth = total;
+  }
+
+void expansion_analyzer::reset() {
+  N = 0;
+  growth = 0;
+  coefficients_known = 0;
+  samples.clear();
+  codeid.clear();
+  children.clear();
+  coef.clear();
+  descendants.clear();
+  }
+
+bool sizes_known() {
+  if(bounded) return false;
+  // Castle Anthrax is infinite
+  if(binarytiling) return false;
+  // not implemented
+  if(archimedean) return false;
+  return true;  
+  }
+
+string expansion_analyzer::approximate_descendants(int d, int max_length) {
+  auto t = SDL_GetTicks();
+  while(isize(descendants) <= d && SDL_GetTicks() < t + 100)
+    get_descendants(isize(descendants));
+  if(isize(descendants) > d) 
+    return get_descendants(d).get_str(max_length);
+  int v = isize(descendants) - 1;
+  bignum& b = get_descendants(v);
+  if(b.digits.empty()) return "0";
+  ld log_10 = log(b.digits.back()) / log(10) + 9 * (isize(b.digits) - 1) + (d - v) * log(get_growth()) / log(10);
+  int more_digits = int(log_10);
+  return XLAT("about ") + fts(pow(10, log_10 - more_digits)) + "E" + its(more_digits);
+  }
+
+void expansion_analyzer::view_distances_dialog() {
+  distcolors[0] = forecolor;
+  dialog::init("");
+  long long qty[64];
+  vector<cell*>& ac = currentmap->allcells();
+  for(int i=0; i<64; i++) qty[i] = 0;
+  for(int i=0; i<isize(ac); i++) {
+    int d = celldistance(ac[i], cwt.at);
+    if(d >= 0 && d < 64) qty[d]++;
+    }
+  
+  if(sizes_known()) {
+    find_coefficients();
+    if(gamerange() >= valid_from && coefficients_known == 2) {
+      for(int i=gamerange()+1; i<64; i++) {
+        qty[i] = 0;
+        for(int j=0; j<isize(coef); j++)
+          qty[i] += qty[i-1-j] * coef[j];
+        }
+      }
+    }
+
+  for(int i=0; i<(bounded ? 64 : 16); i++) if(qty[i])
+    dialog::addInfo(its(qty[i]), distcolors[i&7]);
+  
+  if(binarytiling) {
+    dialog::addBreak(300);
+    dialog::addInfo("a(d) ~ 2ᵈ");
+    }
+  else if(sizes_known()) {
+    if(euclid) {
+      dialog::addBreak(300);
+      dialog::addInfo("a(d) = " + its(get_descendants(10).approx_int() - get_descendants(9).approx_int()) + "d", forecolor);
+      }
+    else {
+      dialog::addBreak(200);
+      
+      if(coefficients_known == 2) {
+        string fmt = "a(d+" + its(isize(coef)) + ") = ";
+        bool first = true;
+        for(int i=0; i<isize(coef); i++) if(coef[i]) {
+          if(first && coef[i] == 1) ;
+          else if(first) fmt += its(coef[i]);
+          else if(coef[i] == 1) fmt += " + ";
+          else if(coef[i] == -1) fmt += " - ";
+          else if(coef[i] > 1) fmt += " + " + its(coef[i]);
+          else if(coef[i] < -1) fmt += " - " + its(-coef[i]);
+          fmt += "a(d";
+          if(i != isize(coef) - 1)
+            fmt += "+" + its(isize(coef) - 1 - i);
+          fmt += ")";
+          first = false;
+          }
+        dialog::addHelp(fmt);
+        }
+      else dialog::addBreak(100);
+      
+      char buf[20];
+      snprintf(buf, 20, "%.8lf", (double) get_growth());
+      dialog::addInfo("a(d) ~ " + string(buf) + "ᵈ", forecolor);
+      }
+    }
+  dialog::display();
+  }
+
+#if !CAP_MINI
+void compute_coefficients() {
+  printf("%s %s\n", gp::operation_name().c_str(), ginf[geometry].name);
+  start_game();
+  
+    printf("  sizes:");
+    for(int i=0; i<10; i++) printf(" %d", expansion.get_descendants(i).approx_int());
+    
+    printf("  N = %d\n", expansion.N);
+
+  expansion.find_coefficients();      
+  if(expansion.coefficients_known == 2) {
+    printf("  coefficients:"); for(int x: expansion.coef) printf(" %d", x);
+    printf(" (tested on %d to %d)\n", expansion.valid_from, expansion.tested_to);
+    }
+  }
+
+int readArgs() {
+  using namespace arg;
+           
+  if(0) ;
+  else if(argis("-vap")) { 
+    PHASEFROM(2); 
+    start_game();
+    while(true) {
+      string s = expansion.approximate_descendants(10000, 100);
+      printf("s = %s\n", s.c_str());
+      if(isize(expansion.descendants) >= 10000) break;
+      }
+    }
+  else if(argis("-csizes")) { 
+    PHASEFROM(2); 
+    start_game();
+    expansion.get_growth();
+    for(int i=0; i<30; i++)
+      printf("%s / %s\n", expansion.get_descendants(i).get_str(1000).c_str(), expansion.get_descendants(i, expansion.diskid).get_str(1000).c_str());  
+    }
+  else if(argis("-csolve")) { 
+    PHASEFROM(2); 
+    start_game();
+    printf("preliminary_grouping...\n");
+    expansion.preliminary_grouping();
+    printf("N = %d\n", expansion.N);
+    printf("reduce_grouping...\n");
+    expansion.reduce_grouping();
+    printf("N = %d\n", expansion.N);
+    printf("growth = %lf\n", (double) expansion.get_growth());
+    expansion.find_coefficients();      
+    if(expansion.coefficients_known == 2) {
+      printf("coefficients:"); for(int x: expansion.coef) printf(" %d", x);
+      printf(", valid from %d to %d\n", expansion.valid_from, expansion.tested_to);
+      }
+    }
+  else if(argis("-csolve_tab")) {
+    for(eGeometry geo: {gNormal, gOctagon, g45, g46, g47}) {
+      set_geometry(geo);
+      set_variation(eVariation::pure);
+      compute_coefficients();
+      set_variation(eVariation::bitruncated);
+      compute_coefficients();
+      for(int x=1; x<9; x++)
+      for(int y=0; y<=x; y++) {
+        if(x == 1 && y == 0) continue;
+        if(x == 1 && y == 1 && S3 == 3) continue;
+        if(x+y > 10) continue;
+        stop_game();
+        gp::param = gp::loc(x, y);
+        need_reset_geometry = true;
+        set_variation(eVariation::goldberg);
+        compute_coefficients();
+        }
+      }
+    }
+  else return 1;
+  return 0;
+  }
+
+auto ea_hook = addHook(hooks_args, 100, readArgs);
+#endif
+
+expansion_analyzer expansion;
+
+}