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424 lines
10 KiB
C++
424 lines
10 KiB
C++
// RogueViz -- SAG embedder: data manager
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// Copyright (C) 2011-24 Zeno Rogue, see 'hyper.cpp' for details
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#include "../rogueviz.h"
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namespace rogueviz {
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namespace sag {
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using namespace cells;
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edgetype *sag_edge;
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/** if this is true, no nodes are allowed to be on the same subcell */
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bool allow_doubles = false;
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/** node i is on sagcells[sagid[i]] */
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vector<int> sagid;
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/** what node is on sagcells[i] (need loglik_repeat to be off) */
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vector<int> sagnode;
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/* separate hubs -- only for smClosest */
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ld hub_penalty;
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string hub_filename;
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vector<int> hubval;
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vector<edgeinfo> sagedges;
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vector<vector<int>> edges_yes, edges_no;
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vector<vector<pair<int, double>>> edge_weights;
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vector<bool> fixed_position;
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ld edgepower=1, edgemul=1;
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void init();
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void compute_cost();
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void prepare_graph() {
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int DN = isize(sagid);
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println(hlog, "prepare_graph with DN = ", DN);
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set<pair<int, int>> alledges;
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for(auto e: sagedges) {
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if(e.i == e.j) continue;
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alledges.emplace(e.i, e.j);
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alledges.emplace(e.j, e.i);
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}
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edges_yes.clear(); edges_yes.resize(DN);
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edges_no.clear(); edges_no.resize(DN);
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fixed_position.clear(); fixed_position.resize(DN);
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for(int i=0; i<DN; i++) for(int j=0; j<DN; j++) if(i != j) {
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if(alledges.count({i, j}))
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edges_yes[i].push_back(j);
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else
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edges_no[i].push_back(j);
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}
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edge_weights.clear(); edge_weights.resize(DN);
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for(auto& e: sagedges) {
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if(e.i == e.j) continue;
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e.weight2 = pow((double) e.weight, (double) edgepower) * edgemul;
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edge_weights[e.i].emplace_back(e.j, e.weight2);
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edge_weights[e.j].emplace_back(e.i, e.weight2);
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}
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sagnode.clear();
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sagnode.resize(isize(sagcells), -1);
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for(int i=0; i<DN; i++)
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sagnode[sagid[i]] = i;
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compute_cost();
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}
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void set_inverse();
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void place_correctly() {
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int DN = isize(sagid);
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vector<int> qon(isize(sagcells), 0);
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for(int i=0; i<DN; i++) qon[sagid[i]]++;
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vector<int> qsf(isize(sagcells), 0);
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ld rad = .25 * cgi.scalefactor;
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if(isize(subcell_points) > 1) rad /= pow(isize(subcell_points), WDIM);
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for(int i=0; i<DN; i++) {
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int ci = sag::sagid[i];
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vdata[i].m->base = sagcells[ci].first;
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vdata[i].m->at = Id;
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if(allow_doubles) vdata[i].m->at =
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spin(TAU*(qsf[ci]++) / qon[ci]) * xpush(rad * (qon[ci]-1) / qon[ci]);
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if(isize(subcell_points) > 1)
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vdata[i].m->at = rgpushxto0(subcell_points[sagcells[ci].second]) * vdata[i].m->at;
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}
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}
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bool visualization_active;
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void forgetedges(int id) {
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for(int i=0; i<isize(vdata[id].edges); i++)
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vdata[id].edges[i].second->orig = NULL;
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}
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void create_viz() {
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if(distance_only) return;
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int DN = isize(sagid);
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bool vact = state & SS_GRAPH;
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state |= SS_GRAPH;
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if(!vact) for(int i=0; i<DN; i++) vdata[i].data = 0;
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if(!vact) for(auto& e: sagedges) addedge0(e.i, e.j, &e);
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if(sagcells[0].first == nullptr) return;
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if(vact) for(int i=0; i<DN; i++) forgetedges(i);
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if(!vact) for(int i=0; i<DN; i++) {
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vertexdata& vd = vdata[i];
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vd.cp = colorpair(dftcolor);
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rogueviz::createViz(i, sagcells[sagid[i]].first, Id);
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}
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place_correctly();
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if(!vact) storeall();
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if(vact) shmup::fixStorage();
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set_inverse();
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vact = true;
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}
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/** save the SAG solution (sagid) */
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void save_sag_solution(const string& fname) {
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if(!(state & SS_DATA)) throw hr_exception("save_sag_solution with no data");
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FILE *f = fopen(fname.c_str(), "wt");
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if(!f) throw hr_exception("failed to save SAG solution");
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for(int i=0; i<isize(sagid); i++)
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fprintf(f, "%s;%d\n", vdata[i].name.c_str(), sagid[i]);
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fclose(f);
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}
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/** load the SAG solution (sagid) */
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void load_sag_solution(const string& fname) {
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if(!(state & SS_DATA)) throw hr_exception("load_sag_solution with no data");
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printf("Loading the sag from: %s\n", fname.c_str());
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FILE *sf = fopen(fname.c_str(), "rt");
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if(!sf) throw hr_exception("failed to load SAG solution");
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int SN = isize(sagcells);
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if(sf) while(true) {
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string lab;
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while(true) {
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int c = fgetc(sf);
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if(c == EOF) goto afterload;
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else if(c == ',' || c == ';') break;
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else if(rv_ignore(c)) ;
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else lab += c;
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}
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int sid = -1;
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int err = fscanf(sf, "%d", &sid);
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if(sid < 0 || sid >= SN || err < 1) sid = -1;
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if(!labeler.count(lab)) {
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printf("unknown vertex: %s\n", lab.c_str());
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}
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else {
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int id = getid(lab);
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sagid[id] = sid;
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}
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}
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afterload:
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if(sf) fclose(sf);
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prepare_graph();
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create_viz();
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}
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void load_sag_solution_basic(const string& fname) {
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if(!(state & SS_DATA)) throw hr_exception("load_sag_solution_basic with no data");
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FILE *f = fopen(fname.c_str(), "rt");
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for(auto& i: sagid) if(fscanf(f, "%d", &i) < 1) throw hr_exception("read error in load_sag_solution_basic");
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fclose(f);
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println(hlog, "loaded sagid = ", sagid);
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prepare_graph();
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create_viz();
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}
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void after_data() {
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state |= SS_DATA;
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init_snake_if_needed();
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int DN = isize(vdata);
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int SN = isize(sagcells);
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if(SN < DN) {
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println(hlog, "SN = ", SN, " DN = ", DN);
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throw hr_exception("not enough cells for SAG");
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}
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sagid.resize(DN);
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for(int i=0; i<DN; i++) sagid[i] = i;
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prepare_graph();
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create_viz();
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}
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/** load all the edges */
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void read_weighted(const char *fname) {
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if(state & SS_DATA) return;
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state |= SS_WEIGHTED;
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init_cells();
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maxweight = 0;
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fhstream f(fname, "rt");
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if(!f.f) throw hr_exception("readsag_weighted: failed to open");
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while(!feof(f.f)) {
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string l1, l2;
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while(true) {
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int c = fgetc(f.f);
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if(c == EOF) goto after;
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else if(c == ';') break;
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else if(rv_ignore(c)) ;
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else l1 += c;
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}
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while(true) {
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int c = fgetc(f.f);
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if(c == EOF) goto after;
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else if(c == ';') break;
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else if(rv_ignore(c)) ;
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else l2 += c;
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}
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ld wei;
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if(!scan(f, wei)) continue;
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edgeinfo ei(sag_edge);
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ei.i = getid(l1);
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ei.j = getid(l2);
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ei.weight = wei;
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sagedges.push_back(ei);
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}
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after:
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println(hlog, "weighted graph ", fname, " read successfully");
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after_data();
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}
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/** load edges, in */
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void read_unweighted(const char *fname) {
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if(state & SS_DATA) return;
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init_cells();
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fhstream f(fname, "rt");
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if(!f.f) throw hr_exception("readsag_weighted: failed to open");
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scanline(f);
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set<pair<int, int> > edges;
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int all = 0, good = 0;
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while(!feof(f.f)) {
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string l1 = scan<string>(f);
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string l2 = scan<string>(f);
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if(l1 == "") continue;
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if(l2 == "") continue;
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edgeinfo ei(sag_edge);
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ei.i = getid(l1);
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ei.j = getid(l2);
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if(ei.i > ei.j) swap(ei.i, ei.j);
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all++;
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if(edges.count({ei.i, ei.j})) continue;
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good++;
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edges.emplace(ei.i, ei.j);
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ei.weight = 1;
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sagedges.push_back(ei);
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}
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println(hlog, "unweighted graph ", fname, " read successfully");
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println(hlog, "N = ", isize(vdata), " edges = ", good, "/", all);
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after_data();
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}
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void read_hubs(const string& fname) {
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if(!(state & SS_DATA)) throw hr_exception("read_hubs with no data");
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hubval.resize(isize(vdata), -1);
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fhstream f(fname, "rt");
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if(!f.f) { printf("Failed to open hub file: %s\n", fname.c_str()); exit(1); }
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println(hlog, "loading hubs: ", fname);
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while(!feof(f.f)) {
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string l1, l2;
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while(true) {
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int c = fgetc(f.f);
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if(c == EOF) return;
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else if(c == ';') break;
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else if(rv_ignore(c)) ;
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else l1 += c;
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}
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while(true) {
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int c = fgetc(f.f);
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if(c == EOF) return;
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else if(c == ';') return;
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else if(rv_ignore(c)) break;
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else l2 += c;
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}
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if(!id_known(l1)) {
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printf("label unknown: %s\n", l1.c_str());
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exit(1);
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}
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hubval[getid(l1)] = atoi(l2.c_str());
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}
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}
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void generate_fake_data(int n, int m) {
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if(state & SS_DATA) return;
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init_cells();
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state |= SS_WEIGHTED;
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sagid.resize(n);
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for(int i=0; i<n; i++) sagid[i] = i;
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hrandom_shuffle(sagid);
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if(m > n || m < 0) throw hr_exception("generate_fake_data parameters incorrect");
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sagid.resize(m);
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int DN = isize(sagid);
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vdata.resize(DN);
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for(int i=0; i<DN; i++)
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vdata[i].name = its(i) + "@" + its(sagid[i]);
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sag_edge = add_edgetype("SAG edge");
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for(int i=0; i<DN; i++)
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for(int j=i+1; j<DN; j++) {
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edgeinfo ei(sag_edge);
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ei.i = i;
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ei.j = j;
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ei.weight = 1. / sagdist[sagid[i]][sagid[j]];
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sagedges.push_back(ei);
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}
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after_data();
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for(int i=0; i<DN; i++) {
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color_t col = ccolor::formula(sagcells[sagid[i]].first);
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col <<= 8;
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col |= 0xFF;
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vdata[i].cp.color1 = vdata[i].cp.color2 = col;
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}
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}
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int data_read_args() {
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#if CAP_COMMANDLINE
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using namespace arg;
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if(0) ;
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else if(argis("-sagmin")) {
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auto& ed = sag_edge ? *sag_edge : default_edgetype;
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shift_arg_formula(ed.visible_from);
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ed.visible_from_hi = ed.visible_from;
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}
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else if(argis("-sagminhi")) {
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auto& ed = sag_edge ? *sag_edge : default_edgetype;
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shift_arg_formula(ed.visible_from_hi);
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}
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else if(argis("-sag-edgepower")) {
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shift_arg_formula(sag::edgepower);
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shift_arg_formula(sag::edgemul);
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}
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else if(argis("-sag-weighted")) {
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PHASE(3);
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shift(); sag::read_weighted(argcs());
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}
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else if(argis("-sag-unweighted")) {
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PHASE(3);
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shift(); sag::read_unweighted(argcs());
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}
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else if(argis("-saghubs")) {
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PHASE(3);
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shift_arg_formula(sag::hub_penalty);
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shift(); sag::read_hubs(argcs());
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}
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else if(argis("-sag-generate")) {
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PHASE(3);
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shift(); int n = argi();
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shift(); int m = argi();
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sag::generate_fake_data(n, m);
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}
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// (3) load the initial positioning
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else if(argis("-sag-load-sol")) {
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PHASE(3); shift(); sag::load_sag_solution(args());
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}
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else if(argis("-sag-load-solution")) {
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PHASE(3); shift(); sag::load_sag_solution_basic(args());
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}
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else if(argis("-sag-save-sol")) {
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PHASE(3); shift(); sag::save_sag_solution(args());
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}
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else if(argis("-sag-fix")) {
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shift(); int id = getid(args());
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if(id >= isize(sagid)) throw hr_exception("bad id in -sag-fix");
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fixed_position[id] = true;
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}
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else if(argis("-sag-move-to")) {
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shift(); int sid1 = getid(args());
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if(sid1 < 0 || sid1 >= isize(sagid)) throw hr_exception("bad id in -sag-move-to");
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shift(); int t2 = argi();
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if(t2 < 0 || t2 >= isize(sagnode)) throw hr_exception("bad id in -sag-move-to");
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int sid2 = sagid[t2];
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int t1 = allow_doubles ? -1 : sagnode[sid1];
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sagnode[sid1] = t2; sagid[t2] = sid1;
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if(sid2 >= 0) sagnode[sid2] = t1; sagid[t1] = sid2;
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compute_cost();
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create_viz();
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}
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else return 1;
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#endif
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return 0;
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}
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int ahdata = addHook(hooks_args, 100, data_read_args);
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}
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}
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