mirror of
https://github.com/zenorogue/hyperrogue.git
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187 lines
5.2 KiB
C++
187 lines
5.2 KiB
C++
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// $(VARIANT) -nogui -dhrg embedded-graphs/facebook_combined_result -contll -iterate 99 -contll -esave > $@
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namespace dhrg {
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struct pairdata { ld success, route_length; };
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#define NOYET 127
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vector<vector<char> > actual;
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vector<pairdata> pairs;
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vector<int> last_goal;
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vector<int> next_stop;
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int gr_N;
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using neighborhoodfun = std::function<vector<int> (int)>;
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void prepare_pairs(int N, const neighborhoodfun& nei) {
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gr_N = N;
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pairs.resize(N);
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actual.resize(N);
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for(int i=0; i<N; i++) actual[i].resize(N, NOYET);
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for(int i=0; i<N; i++) {
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vector<int> bfsqueue;
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auto& p = actual[i];
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auto visit = [&] (int j, int d) {
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if(p[j] == NOYET) {
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p[j] = d;
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bfsqueue.push_back(j);
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}
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};
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visit(i, 0);
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for(int k=0; k<isize(bfsqueue); k++) {
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int a = bfsqueue[k];
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for(auto b: nei(a))
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visit(b, p[a] + 1);
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}
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}
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last_goal.clear();
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last_goal.resize(N, -1);
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next_stop.clear();
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next_stop.resize(N, -1);
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}
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void prepare_pairs() {
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prepare_pairs(N, [] (int a) {
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vector<int> res;
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for(auto ed: rogueviz::vdata[a].edges) {
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int b = ed.second->i ^ ed.second->j ^ a;
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res.push_back(b);
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}
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return res;
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});
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}
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void route_from(int src, int goal, const vector<ld>& distances_from_goal) {
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if(last_goal[src] == goal) return;
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if(src == goal) {
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pairs[src].success = 1;
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pairs[src].route_length = 0;
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next_stop[src] = -1;
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}
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else {
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ld bestd = distances_from_goal[src] - 1e-5;
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/* iprintf("route_from goal=%d a=%d, bestd = %f\n", goal, src, bestd + 1e-5);
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indent += 2; */
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vector<int> candidates;
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for(auto ed: rogueviz::vdata[src].edges) {
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int e = ed.second->i ^ ed.second->j ^ src;
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ld d = e == goal ? -1 : distances_from_goal[e];
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if(d < bestd) bestd = d, candidates.clear();
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if(d == bestd) candidates.push_back(e);
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}
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pairs[src].success = pairs[src].route_length = 0;
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for(int c: candidates) {
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route_from(c, goal, distances_from_goal);
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// iprintf("candidate = %d\n", c);
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pairs[src].success += pairs[c].success / isize(candidates);
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pairs[src].route_length += (1 + pairs[c].route_length) / isize(candidates);
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}
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if(isize(candidates) > 0) next_stop[src] = candidates[0];
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else next_stop[src] = -1;
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// iprintf("success = %f, route = %f\n", pairs[src].success, pairs[src].route_length);
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// indent -= 2;
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}
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last_goal[src] = goal;
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}
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void greedy_routing_to(iddata& d, int goal, const distfun& distance_function) {
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vector<ld> distances_from_goal(gr_N);
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for(int src=0; src<gr_N; src++)
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distances_from_goal[src] = distance_function(goal, src);
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for(int src=0; src<gr_N; src++)
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route_from(src, goal, distances_from_goal);
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for(int j=0; j<gr_N; j++) if(j != goal){
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d.tot++;
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ld p = pairs[j].success;
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d.suc += p;
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d.routedist += pairs[j].route_length;
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d.bestdist += p * actual[goal][j];
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}
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}
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void greedy_routing(iddata& d, const distfun& distance_function) {
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for(int goal=0; goal<gr_N; goal++) greedy_routing_to(d, goal, distance_function);
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}
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void routing_test(string s) {
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iddata datas[6];
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vector<string> reps;
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vector<ld> values;
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auto report = [&] (string s, ld val) {
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values.push_back(val);
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reps.push_back(s);
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println(hlog, "REPORT ", s, " = ", val);
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};
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if(1) {
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FILE *f = fopen(("embout/" + s).c_str(), "rb");
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char buf[999999];
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int siz = fread(buf, 1, 999999, f);
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for(int i=0; i<siz; i++) if(is(buf+i, "Embedded Log-likelihood: "))
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report("bfkl", atof(buf+i+25));
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fclose(f);
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}
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if(1) {
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dhrg_init(); read_graph_full("data/sime-" + s);
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origcoords();
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prepare_pairs();
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greedy_routing(datas[0], [] (int i, int j) { return hdist(vertexcoords[i], vertexcoords[j]); });
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greedy_routing(datas[1], [] (int i, int j) { return quickdist(vertices[i], vertices[j], 0); });
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embedder_loop(20);
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greedy_routing(datas[2], [] (int i, int j) { return quickdist(vertices[i], vertices[j], 0); });
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cellcoords();
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greedy_routing(datas[3], [] (int i, int j) { return hdist(vertexcoords[i], vertexcoords[j]); });
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greedy_routing(datas[4], [] (int i, int j) { return hdist(vertexcoords[i], vertexcoords[j]) + 100 * quickdist(vertices[i], vertices[j], 0); });
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}
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for(int id: {0,1,2,3,4}) {
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string caps[5] = {"ec", "ed", "od", "oc", "tie"};
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string cap = caps[id];
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auto& d = datas[id];
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report("suc_" + cap, d.suc / d.tot);
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report("str_" + cap, d.routedist / d.bestdist);
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}
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println(hlog, "HDR;", separated(";", reps), ";N;GROWTH\n");
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println(hlog, "RES;", separated(";", values), ";", N, ";", cgi.expansion->get_growth());
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}
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int current_goal;
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iddata prepared;
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void prepare_goal(int goal) {
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greedy_routing_to(prepared, current_goal = goal, [] (int i, int j) { return hdist(vertexcoords[i], vertexcoords[j]); });
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}
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vector<int> path(int src) {
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vector<int> res;
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while(src != -1) {
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res.push_back(src);
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src = next_stop[src];
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}
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return res;
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}
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int get_actual(int src) {
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return actual[src][current_goal];
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}
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}
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