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hyperrogue/rogueviz/som/analyzer.cpp
2022-04-21 11:56:01 +02:00

229 lines
6.2 KiB
C++

// analyze the SOM test results
// Copyright (C) 2011-2022 Tehora and Zeno Rogue, see 'hyper.cpp' for details
#include "kohonen.h"
namespace rogueviz {
namespace kohonen_test {
extern string cg();
extern int data_scale, embed_scale;
extern int subdata_value;
}
double UNKNOWN_RESULT = -3;
using namespace kohonen_test;
namespace analyzer {
using measures::manidata;
using measures::MCOUNT;
struct maniset {
vector<string> names;
map<string, manidata> mdata;
};
maniset origs, embs;
void load_maniset(maniset& m, int scale) {
FILE *f = fopen((som_test_dir + "edgelists-" + its(scale) + ".txt").c_str(), "r");
while(true) {
char buf[200];
if(fscanf(f, "%s", buf) <= 0) break;
if(buf[0] != '#')
m.names.push_back(buf);
auto& md = m.mdata[buf];
int N, M;
fscanf(f, "%d%d", &N, &M);
println(hlog, "reading ", buf, " of size ", N, " and ", M, " edges");
md.size = N;
auto& ed = md.edges;
for(int i=0; i<M; i++) {
int a, b;
fscanf(f, "%d%d", &a, &b);
ed.emplace_back(a, b);
}
md.distances = measures::build_distance_matrix(N, md.edges);
}
fclose(f);
}
vector<pair<int, int> > vor_edges;
void analyze_test() {
println(hlog, "loading original manifolds");
load_maniset(origs, data_scale);
println(hlog, "loading embedding manifolds");
load_maniset(embs, embed_scale);
map<string, map<int, array<double, MCOUNT>>> results;
string tablefile = som_test_dir + "table" + cg() + ".csv";
if(1) {
fhstream res(tablefile, "rt");
if(!res.f) { println(hlog, "table ", tablefile, " missing"); }
else {
println(hlog, "reading the old table ", tablefile);
string s = scanline(res);
while(true) {
s = scanline(res);
if(s == "") break;
int i = 0;
while(s[i] != ';') i++;
i++;
while(s[i] != ';') i++;
i++;
int id;
sscanf(s.c_str()+i, "%d", &id);
auto& res = results[s.substr(0, i-1)][id];
for(auto& d: res) d = UNKNOWN_RESULT;
sscanf(s.c_str()+i, "%d;%lf;%lf;%lf;%lf;%lf;%lf;%lf;%lf;%lf;%lf;%lf;%lf", &id, &res[0], &res[1], &res[2], &res[3], &res[4], &res[5], &res[6], &res[7], &res[8], &res[9], &res[10], &res[11]);
}
}
}
for(string orig: origs.names) {
string dir = som_test_dir + "pairs" + cg();
for(string emb: embs.names) {
string fname = dir + "/" + orig + "-" + emb + ".txt";
if(!file_exists(fname)) continue;
FILE *f = fopen(fname.c_str(), "rt");
string vorname = dir + "/" + orig + "-" + emb + ".vor";
if(!file_exists(vorname)) continue;
FILE *vor = fopen(vorname.c_str(), "rt");
int No = origs.mdata[orig].size;
auto& edo = origs.mdata[orig].edges;
vector<pair<int, int>> edo_recreated;
int new_results = 0;
int current_row = -1;
auto& res1 = results[orig + ";" + emb];
for(int it=0; it<100; it++) {
bool know_result = res1.count(it);
auto& res = res1[it];
if(!know_result)
for(int kk=0; kk<MCOUNT; kk++)
res[kk] = UNKNOWN_RESULT;
vector<int> mapp(No, -2);
for(int k=0; k<MCOUNT; k++) {
bool recompute = false;
ld energy = 0;
if(res[k] == UNKNOWN_RESULT || recompute) {
while(current_row < it) {
current_row++;
for(int i=0; i<No; i++) fscanf(f, "%d", &mapp[i]);
int V = 0; fscanf(vor, "%d", &V);
vor_edges.resize(V);
for(int i=0; i<V; i++) fscanf(vor, "%d%d", &vor_edges[i].first, &vor_edges[i].second);
if(mapp.back() == -2) goto next_pair;
if(current_row == it)
edo_recreated = measures::recreate_topology(mapp, edo);
}
new_results++;
energy = evaluate_measure(embs.mdata[emb], origs.mdata[orig], mapp, vor_edges, edo_recreated, k);
if(recompute && res[k] != UNKNOWN_RESULT) {
if(abs(res[k] - energy) > 1e-5) {
println(hlog, "ERROR in ", orig, "->", emb, " in ", cg(), " index ", it, " : was ", res[k], " is ", energy);
if(subdata_value) res[k] = energy;
}
}
else {
res[k] = energy;
}
}
}
}
next_pair:
fclose(f);
if(new_results) println(hlog, "computed ", new_results, " new results in ", cg(), " for ", orig, " -> ", emb);
}
}
fhstream o(som_test_dir + "summary" + cg() + ".html", "wt");
println(o, "<html><body>\n");
if(1) {
println(o, "<table>\n");
int manis = 0;
for(string orig: origs.names) {
print(o, "<tr><th>", orig, "</th>");
for(string emb: embs.names) print(o, "<th>", emb, "</th>");
print(o, "</tr>\n");
for(int k: {0, 2, 4, 7, 8, 10, 11}) {
print(o, "<tr><td>", measures::catnames[k], "</td>");
for(string emb: embs.names) {
ld tenergy = 0;
int att = 0;
auto& res1 = results[orig + ";" + emb];
for(int it=0; it<100; it++) {
if(!res1.count(it)) continue;
auto& res = res1[it];
if(res[k] == UNKNOWN_RESULT) continue;
att++; tenergy += res[k];
}
if(orig == emb)
print(o, "<td bgcolor=\"#C0FFFF\">");
else if(manis & 1)
print(o, "<td bgcolor=\"#FFFFC0\">");
else
print(o, "<td>");
if(att == 100)
print(o, tenergy * 1. / att);
else if(att)
print(o, tenergy * 1. / att, "?");
else
print(o, "???");
print(o, "</td>");
}
print(o, "</tr>\n");
}
manis++;
}
print(o, "</table>\n");
}
print(o, "</body></html>\n");
fhstream res(som_test_dir + "table" + cg() + ".csv", "wt");
print(res, "orig;emb;index");
for(int i=0; i<MCOUNT; i++) print(res, ";", measures::catnames[i]); println(res);
for(auto& p: results) {
for(auto& p2: p.second) {
auto &p3 = p2.second;
print(res, p.first, ";", p2.first);
for(int i=0; i<MCOUNT; i++) print(res, ";", p3[i]); println(res);
}
}
}
auto khook = arg::add3("-analyze-test", analyze_test);
}}