updated rogueviz to changed functions

rogueviz/grigorchuk.cpp

@@ -396,7 +396,7 @@ struct hrmap_grigorchuk : hrmap_standard {
   void draw_at(cell *at, const shiftmatrix& where) override {
   
     dq::clear_all();
-    dq::enqueue_by_matrix(at->master, where * master_relative(centerover, true));
+    dq::enqueue_by_matrix(at->master, where * currentmap->master_relative(centerover, true));
     
     while(!dq::drawqueue.empty()) {      
       auto& p = dq::drawqueue.front();
@@ -414,7 +414,7 @@ struct hrmap_grigorchuk : hrmap_standard {
       if(patterns::whichCanvas == 'G' && c->landparam == 0)
         c->landparam = 0x102008 * (1 + ((hrmap_grigorchuk*)currentmap)->dec[c->master]->len);
       
-      drawcell(c, V * master_relative(c, false));
+      drawcell(c, V * currentmap->master_relative(c, false));
       
       for(int i=0; i<3; i++) if(c->move(i))
         dq::enqueue_by_matrix(h->cmove(i), optimized_shift(V * adj(h, i)));

rogueviz/kohonen.cpp

@@ -1253,7 +1253,7 @@ void fillgroups() {
   do_classify();
   vector<int> samples_to_sort;
   for(int i=0; i<samples; i++) samples_to_sort.push_back(i);
-  hrandom_shuffle(samples_to_sort);
+  hrandom_shuffle(&samples_to_sort[0], samples);
   for(int i=0; i<samples; i++) if(net[bids[i]].drawn_samples < net[bids[i]].max_group_here)
     showsample(i);
   distribute_neurons();

rogueviz/notknot.cpp

@@ -463,8 +463,8 @@ struct hrmap_notknot : hrmap {
     }
 
   bool adjacent_matrix(const transmatrix& Tk, const transmatrix& Tl) {
-    for(auto vk: cgi.vertices_only)
-    for(auto vl: cgi.vertices_only)
+    for(auto vk: cgi.heptshape->vertices_only)
+    for(auto vl: cgi.heptshape->vertices_only)
       if(hdist(Tk * vk, Tl * vl) < .01)
         return true;
     
@@ -492,7 +492,7 @@ struct hrmap_notknot : hrmap {
       return;
       }
     
-    for(auto& v: cgi.vertices_only) {
+    for(auto& v: cgi.heptshape->vertices_only) {
       map<heptagon*, ucover*> visited;
       vector<pair<ucover *, transmatrix>> q;
       
@@ -515,7 +515,7 @@ struct hrmap_notknot : hrmap {
           if(u2->state != 0) continue;
           auto T1 = T0 * adj(u1, i);
           bool adjacent = false;
-          for(auto& v2: cgi.vertices_only)
+          for(auto& v2: cgi.heptshape->vertices_only)
             if(hdist(T1 * v2, h) < 1e-5)
               adjacent = true;
           if(adjacent)
@@ -584,7 +584,7 @@ struct hrmap_notknot : hrmap {
           if(u2->iswall()) continue;
           transmatrix Tj = Ti * adj(at, j);
           bool adj = false;
-          for(auto v: cgi.vertices_only) for(auto v1: cgi.vertices_only)
+          for(auto v: cgi.heptshape->vertices_only) for(auto v1: cgi.heptshape->vertices_only)
             if(hdist(M * v1, Tj * v) < 1e-3) adj = true;
           
           if(adj) visit(at, u2, at->where->c.spin(j), Tj);

rogueviz/pentaroll.cpp

@@ -31,8 +31,8 @@ void create_pentaroll(bool animated) {
   /* the construction */
   for(cell *c: cl.lst) {
     int common = 0;
-    for(auto& v: cgi.vertices_only)
-    for(auto& w: cgi.vertices_only)
+    for(auto& v: currentmap->get_cellshape(c).vertices_only_local)
+    for(auto& w: currentmap->get_cellshape(c).vertices_only_local)
       if(hdist(v, rel[c] * w) < 1e-6)
         common++;
       
@@ -49,7 +49,7 @@ void create_pentaroll(bool animated) {
     cellwalker cw(c0, i0);
     cw.peek()->wall = waPlatform;      
     if(cgi.face == 5)  {
-      cellwalker cw1 = reg3::strafe(cw, (i==1?cgi.face:i-1));
+      cellwalker cw1 = currentmap->strafe(cw, (i==1?cgi.face:i-1));
       cw1.peek()->wall = waWaxWall;
       cw1.peek()->landparam = hrand(0x1000000) | 0x808080;
       }
@@ -74,16 +74,16 @@ void animate() {
   int tb = int(t) % cgi.face;
   
   hyperpoint m;
-  for(int i=0; i<cgi.face; i++) m += cgi.vertices_only[i];
+  for(int i=0; i<cgi.face; i++) m += cgi.heptshape->vertices_only[i];
   m /= cgi.face;
   
   auto normm = [&] (hyperpoint h) {
     return normalize(lerp(m, h, how_far));
     };
   
-  hyperpoint h1 = normm(cgi.vertices_only[tb]);
-  hyperpoint h2 = normm(cgi.vertices_only[(tb+1) % cgi.face]);
-  hyperpoint h3 = normm(cgi.vertices_only[(tb+2) % cgi.face]);
+  hyperpoint h1 = normm(cgi.heptshape->vertices_only[tb]);
+  hyperpoint h2 = normm(cgi.heptshape->vertices_only[(tb+1) % cgi.face]);
+  hyperpoint h3 = normm(cgi.heptshape->vertices_only[(tb+2) % cgi.face]);
   
   hyperpoint a = gpushxto0(h2) * h1;
   hyperpoint b = gpushxto0(h2) * h3;