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hyperrogue/devmods/tests.cpp
2022-07-12 14:46:31 +02:00

133 lines
4.1 KiB
C++

#include "../hyper.h"
#include <iostream>
#include <thread>
namespace hr {
namespace tests {
int errors = 0;
string test_eq(hyperpoint h1, hyperpoint h2, ld err = 1e-6) {
if(sqhypot_d(MDIM, h1 -h2) < err)
return lalign(0, "OK ", h1, " ", h2);
else {
errors++;
return lalign(0, "ERROR", " ", h1, " ", h2);
}
}
string test_eq(transmatrix T1, transmatrix T2, ld err = 1e-6) {
if(eqmatrix(T1, T2, err))
return "OK";
else {
errors++;
return "ERROR";
}
}
int readArgs() {
using namespace arg;
if(0) ;
else if(argis("-test-dist")) {
start_game();
shift(); int d = argi();
vector<cell*> l = currentmap->allcells();
int unknown = 0;
for(cell *c1: l) if(c1->cpdist <= d)
for(cell *c2: l) if(c2->cpdist <= d) {
int cd = celldistance(c1, c2);
int bcd = bounded_celldistance(c1, c2);
if(bcd == DISTANCE_UNKNOWN)
unknown++;
else if(cd != bcd) {
errors++;
println(hlog, "distance error: ", tie(c1,c2), " cd = ", cd, " bcd = ", bcd);
}
}
int q = 0;
for(cell *c: l) if(c->cpdist <= d) q++;
println(hlog, "cells checked: ", q, " errors: ", errors, " unknown: ", unknown, " in: ", full_geometry_name());
if(errors) exit(1);
}
else if(argis("-test-bt")) {
PHASEFROM(3);
for(int i=0; i<gGUARD; i++) {
eGeometry g = eGeometry(i);
set_geometry(g);
ld aer = bt::area_expansion_rate();
if(!aer) continue;
// if(cgflags & qDEPRECATED) continue;
// if(cgflags & qHYBRID) continue;
// if(arb::in() || arcm::in()) continue;
// if(!(bt::in() || nonisotropic || among(geometry, gEuclidSquare,
println(hlog, "testing geometry: ", ginf[g].menu_displayed_name);
start_game();
int co = bt::expansion_coordinate();
int cx = (co + 1) % WDIM;
int cy = (co + 2) % WDIM;
auto oxy = [&] (ld x, ld y, ld z) { hyperpoint h = Hypc; h[co] = z; h[cx] = x; if(WDIM == 3) h[cy] = y; return tC0(bt::normalized_at(h)); };
ld shrunk_x = geo_dist(oxy(0,0,-1), oxy(.01,0,-1));
ld shrunk_y = geo_dist(oxy(0,0,-1), oxy(0,.01,-1));
ld expand_x = geo_dist(oxy(0,0,+1), oxy(.01,0,+1));
ld expand_y = geo_dist(oxy(0,0,+1), oxy(0,.01,+1));
if(WDIM == 2) shrunk_y = expand_y = 1;
println(hlog, "should be 1: ", lalign(10, (shrunk_x * shrunk_y * bt::area_expansion_rate()) / (expand_x * expand_y)), " : ", tie(shrunk_x, shrunk_y, expand_x, expand_y, aer));
if(geometry == gArnoldCat)
println(hlog, "(but not in Arnold's cat)");
}
}
else if(argis("-test-push")) {
PHASEFROM(3);
for(eGeometry g: {gSol, gNil, gCubeTiling, gSpace534, gCell120}) {
stop_game();
set_geometry(g);
println(hlog, "testing geometry: ", geometry_name());
hyperpoint h = hyperpoint(.1, .2, .3, 1);
h = normalize(h);
println(hlog, "h = ", h);
println(hlog, "test rgpushxto0: ", test_eq(rgpushxto0(h) * C0, h));
println(hlog, "test gpushxto0: ", test_eq(gpushxto0(h) * h, C0));
println(hlog, "test inverses: ", test_eq(inverse(rgpushxto0(h)), gpushxto0(h)));
println(hlog, "test iso_inverse: ", test_eq(iso_inverse(rgpushxto0(h)), gpushxto0(h)));
}
if(errors) exit(1);
}
else if(argis("-partest", [] {
hyperpoint h = point31(.01, .05, 0);
if(LDIM == 3) h[2] = .015;
println(hlog, "h = ", h);
println(hlog, "good Ph = ", parabolic13(h));
println(hlog, "good DPh = ", test_eq(h, deparabolic13(parabolic13(h))));
// println(hlog, "bad Ph = ", parabolic10(h));
// println(hlog, "bad DPh = ", test_eq(h, deparabolic10(parabolic10(h))));
if(LDIM == 3) {
println(hlog, "min Ph = ", bt::bt_to_minkowski(h));
println(hlog, "min DPh = ", test_eq(h, bt::minkowski_to_bt(bt::bt_to_minkowski(h))));
}
});
else return 1;
return 0;
}
auto hooks = addHook(hooks_args, 100, readArgs);
// Bolza:: genus 2 => Euler characteristic -2
// octagon: -2/6
// ~> 6 octagons
}
}