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hyperrogue/rogueviz/rogueviz.cpp

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// Hyperbolic Rogue
// Copyright (C) 2011-2016 Zeno Rogue, see 'hyper.cpp' for details
// Hyperbolic geometry is a good tool to visualize data,
// especially trees and scale-free networks. This file
// uses HyperRogue to browse such vizualizations.
// Since it is not of use for general HyperRogue players,
// it is disabled by default -- compile with the ROGUEVIZ flag to enable this.
// How to use:
// hyper -embed <start of filename> -- visualize a social network
// embedded into hyperbolic plane, see:
// https://bitbucket.org/HaiZhung/hyperbolic-embedder/overview
// (it uses the same format)
// hyper -tol <filename.xml> -- visualize the tree of life,
// based on a XML dump from https://tree.opentreeoflife.org/
// hyper -tess <parameter file> -- visualize a horocyclic tesselation,
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#include "../hyper.h"
#include "rogueviz.h"
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namespace hr {
namespace linepatterns {
extern linepattern patPalace, patZebraTriangles, patZebraLines;
}
}
namespace rogueviz {
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ld fat_edges = 0;
ld ggamma = 1;
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using namespace hr;
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edgetype default_edgetype = { .1, .1, .1, DEFAULT_COLOR, 0xFF0000FF, "default" };
void init();
bool showlabels = false;
bool specialmark = false;
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bool edge_legend = false;
bool rog3 = false;
int vertex_shape = 1;
string edgename;
string fname;
// const char *fname;
// const char *cfname;
eVizkind kind;
bool on;
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vector<shared_ptr<edgetype>> edgetypes;
edgetype *add_edgetype(const string& name) {
auto e = make_shared<edgetype> (default_edgetype);
e->name = name;
edgetypes.push_back(e);
return &*e;
}
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map<color_t, array<color_t, 16> > next_hue;
color_t parse1(const string& s) {
// color can be given as RRGGBB
// or as 'Rmax,min,alpha,step,start', for rainbow Collatz
if(s[0] == 'R') {
int mh = 192, minh = 0, alpha = 255, step = 50, start = 0;
sscanf(s.c_str(), "R%x,%x,%x,%d,%d", &mh, &minh, &alpha, &step, &start);
vector<color_t> hues;
color_t difh = mh - minh;
color_t base = alpha + minh * 0x1010100;
for(unsigned y=0; y<difh; y++)
hues.push_back(base + 0x1000000*mh + 0x10000 * y);
for(unsigned y=0; y<difh; y++)
hues.push_back(base + 0x1010000*mh - 0x1000000 * y);
for(unsigned y=0; y<difh; y++)
hues.push_back(base + 0x0010000*mh + 0x100 * y);
for(unsigned y=0; y<difh; y++)
hues.push_back(base + 0x0010100*mh - 0x10000 * y);
for(unsigned y=0; y<difh; y++)
hues.push_back(base + 0x0000100*mh + 0x1000000 * y);
for(unsigned y=0; y<difh; y++)
hues.push_back(base + 0x1000100*mh - 0x100 * y);
for(int t=0; t<isize(hues); t++)
for(int a=0; a<16; a++)
next_hue[hues[t]][a] = hues[gmod(t + rand() % step - rand() % step, isize(hues))];
return hues[gmod(start, isize(hues))];
}
else {
color_t res;
sscanf(s.c_str(), "%x", &res);
return res;
}
}
color_t perturb(color_t c) {
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if(!next_hue.count(c)) return c;
return next_hue[c][rand() % 16];
}
colorpair perturb(colorpair cp) {
cp.color1 = perturb(cp.color1);
cp.color2 = perturb(cp.color2);
return cp;
}
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colorpair parse(string s) {
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colorpair cp;
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auto pospng = s.find(":PNG:");
if(pospng != string::npos) {
string fname = s.substr(pospng+5);
s = s.substr(0, pospng);
#if CAP_TEXTURE
cp.img = make_shared<rvimage>();
auto& i = *cp.img;
i.tdata.twidth = 1024;
if(!(i.tdata.readtexture(fname) && i.tdata.loadTextureGL())) {
println(hlog, "failed to load: ", fname);
cp.img = NULL;
return cp;
}
println(hlog, "loaded texture: ", fname);
for(int x=0; x<16; x++)
for(int y=0; y<16; y++) {
auto addv = [&] (ld x, ld y) {
x -= 8;
y -= 8;
x /= 16.;
y /= 16.;
ld r = max(abs(x), abs(y)) / hypot(x, y);
if(x || y) {
x *= r;
y *= r;
}
i.tinf.tvertices.push_back(glhr::makevertex(x + .5, y + .5, 0));
i.vertices.push_back(hpxy(x * .4, y * .4));
};
addv(x, y);
addv(x, y+1);
addv(x+1, y);
addv(x, y+1);
addv(x+1, y);
addv(x+1, y+1);
}
i.tinf.texture_id = i.tdata.textureid;
#endif
}
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auto pos = s.find(":");
if(pos != string::npos) {
cp.color1 = parse1(s.substr(0, pos));
cp.shade = s[pos+1];
cp.color2 = parse1(s.substr(pos+2));
}
else {
cp.shade = 0; cp.color2 = 0;
cp.color1 = parse1(s);
}
return cp;
}
vector<vertexdata> vdata;
transmatrix cspin(int i, int ch) {
return spin(M_PI + (2 * M_PI * (i+1)) / (ch+1));
}
map<string, int> labeler;
int getid(const string& s) {
if(labeler.count(s)) return labeler[s];
else {
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int id = isize(vdata);
vdata.resize(isize(vdata) + 1);
vdata[id].name = s;
return labeler[s] = id;
}
}
int getnewid(string s) {
while(labeler.count(s)) s += "'";
return getid(s);
}
void addedge0(int i, int j, edgeinfo *ei) {
vdata[i].edges.push_back(make_pair(j, ei));
vdata[j].edges.push_back(make_pair(i, ei));
}
void createViz(int id, cell *c, transmatrix at) {
vertexdata& vd(vdata[id]);
vd.m = new shmup::monster;
vd.m->pid = id;
vd.m->type = moRogueviz;
vd.m->base = c;
vd.m->at = at;
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vd.m->isVirtual = false;
}
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void notimpl() {
printf("Not implemented\n"); exit(1);
}
hyperpoint where(int i, cell *base) {
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auto m = vdata[i].m;
if(m->base == base) return tC0(m->at);
else if(confusingGeometry()) {
return calc_relative_matrix(m->base, base, C0) * tC0(m->at);
}
else {
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// notimpl(); // actually probably that's a buug
return inverse(ggmatrix(currentmap->gamestart())) * (ggmatrix(m->base) * tC0(m->at));
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}
}
void addedge(int i, int j, edgeinfo *ei) {
cell *base =
confusingGeometry() ? vdata[i].m->base : currentmap->gamestart();
hyperpoint hi = where(i, base);
hyperpoint hj = where(j, base);
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double d = hdist(hi, hj);
if(d >= 4) {
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hyperpoint h = mid(hi, hj);
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int id = isize(vdata);
vdata.resize(id+1);
vertexdata& vd(vdata[id]);
vd.cp = colorpair(0x400000FF);
vd.virt = ei;
createViz(id, base, rgpushxto0(h));
vd.m->no_targetting = true;
addedge(i, id, ei);
addedge(id, j, ei);
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virtualRebase(vdata[i].m);
}
else addedge0(i, j, ei);
}
vector<edgeinfo*> edgeinfos;
void addedge(int i, int j, double wei, bool subdiv, edgetype *t) {
edgeinfo *ei = new edgeinfo(t);
edgeinfos.push_back(ei);
ei->i = i;
ei->j = j;
ei->weight = wei;
if(subdiv) addedge(i, j, ei);
else addedge0(i, j, ei);
}
void storeall(int from) {
for(int i=from; i<isize(vdata); i++)
if(vdata[i].m)
vdata[i].m->store();
}
colorpair dftcolor = 0x282828FF;
namespace spiral {
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ld mul;
transmatrix at(double d) {
return spin(log(d) * 2 * M_PI / log(mul)) * xpush(log(d));
}
void place(int N, ld _mul) {
mul = _mul;
init(); kind = kSpiral;
vdata.resize(N);
for(int i=0; i<N; i++) {
vertexdata& vd = vdata[i];
double d = i + 1;
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transmatrix h = at(d);
createViz(i, cwt.at, h);
vd.name = its(i+1);
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virtualRebase(vd.m);
vd.cp = dftcolor;
}
storeall();
}
void edge(ld shift, ld mul) {
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int N = isize(vdata);
auto t = add_edgetype(fts(shift)+" " + fts(mul));
t->visible_from = 1. / (N+.5);
for(int i=0; i<N; i++) {
int i0 = i+1;
int j0 = int(i0 * mul + shift) - 1;
if(j0 >= 0 && j0 < N) addedge(i, j0, 1/(i+1), false, t);
}
}
void color(ld start, ld period, colorpair c) {
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int N = isize(vdata);
int maxw = N;
while(start >= 0 && start < N) {
int i = int(start);
vdata[i].cp = c;
start += period;
maxw--; if(maxw <= 0) break;
}
}
}
namespace collatz {
double s2, s3, p2, p3;
double cshift = -1;
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transmatrix T2, T3;
edgetype *collatz1, *collatz2;
void start() {
init(); kind = kCollatz;
collatz1 = add_edgetype("1");
collatz2 = add_edgetype("2");
vdata.resize(1);
vertexdata& vd = vdata[0];
createViz(0, cwt.at, xpush(cshift));
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virtualRebase(vd.m);
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vd.cp = dftcolor;
vd.data = 0;
addedge(0, 0, 1, false, collatz::collatz1);
vd.name = "1";
storeall();
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T2 = spin(collatz::s2) * xpush(collatz::p2);
T3 = spin(collatz::s3) * xpush(collatz::p3);
}
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void lookup(long long reached, int bits) {
while(reached < (1ll<<bits)) {
if(reached%3 == 2 && (2*reached-1) % 9 && hrand(100) < 50)
reached = (2*reached-1) / 3;
else reached *= 2;
}
printf("reached = %lld\n", reached);
vector<string> seq;
while(reached>1) {
seq.push_back(llts(reached));
if(reached&1) reached += (reached>>1)+1;
else reached >>= 1;
}
// seq.push_back("1");
reverse(seq.begin(), seq.end());
int id = 0;
int next = 0;
int steps = 0;
while(true) {
steps++;
if(std::isnan(View[0][0])) exit(1);
shmup::turn(100);
drawthemap();
centerpc(100); optimizeview();
fixmatrix(View);
bfs(); setdist(cwt.at, 7 - getDistLimit() - genrange_bonus, NULL);
vertexdata& vd = vdata[id];
for(int e=0; e<isize(vd.edges); e++) {
int id2 = vd.edges[e].first;
if(vdata[id2].name == seq[next]) {
id = id2; next++;
cwt.at = vdata[id2].m->base;
if(shmup::on) shmup::pc[0]->base = cwt.at;
if(next == isize(seq)) goto found;
}
}
}
found:
printf("steps = %d\n", steps);
}
}
int readLabel(fhstream& f) {
string s = scan<string>(f);
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if(s == "") return -1;
return getid(s);
}
namespace anygraph {
double R, alpha, T;
vector<pair<double, double> > coords;
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edgetype *any;
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int N;
void fixedges() {
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for(int i=N; i<isize(vdata); i++) if(vdata[i].m) vdata[i].m->dead = true;
for(int i=0; i<isize(vdata); i++) vdata[i].edges.clear();
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vdata.resize(N);
for(auto e: edgeinfos) {
e->orig = NULL;
addedge(e->i, e->j, e);
}
}
void tst() {}
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void read(string fn, bool subdiv, bool doRebase, bool doStore) {
init(); kind = kAnyGraph;
any = add_edgetype("embedded edges");
fname = fn;
fhstream f(fn + "-coordinates.txt", "rt");
if(!f.f) {
printf("Missing file: %s-coordinates.txt\n", fname.c_str());
exit(1);
}
printf("Reading coordinates...\n");
string ignore;
if(!scan(f, ignore, ignore, ignore, ignore, N, anygraph::R, anygraph::alpha, anygraph::T)) {
printf("Error: incorrect format of the first line\n"); exit(1);
}
vdata.reserve(N);
while(true) {
string s = scan<string>(f);
println(hlog, "s: ", s.c_str());
if(s == "D11.11") tst();
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if(s == "" || s == "#ROGUEVIZ_ENDOFDATA") break;
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int id = getid(s);
vertexdata& vd(vdata[id]);
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vd.name = s;
vd.cp = colorpair(dftcolor);
double r, alpha;
if(!scan(f, r, alpha)) { printf("Error: incorrect format of r/alpha\n"); exit(1); }
coords.push_back(make_pair(r, alpha));
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transmatrix h = spin(alpha * degree) * xpush(r);
createViz(id, currentmap->gamestart(), h);
}
fhstream g(fn + "-links.txt", "rt");
if(!g.f) {
println(hlog, "Missing file: ", fname, "-links.txt");
exit(1);
}
println(hlog, "Reading links...");
int qlink = 0;
while(true) {
int i = readLabel(g), j = readLabel(g);
if(i == -1 || j == -1) break;
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addedge(i, j, 1, subdiv, any);
qlink++;
}
if(doRebase) {
printf("Rebasing...\n");
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for(int i=0; i<isize(vdata); i++) {
if(i % 10000 == 0) printf("%d/%d\n", i, isize(vdata));
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if(vdata[i].m) virtualRebase(vdata[i].m);
}
printf("Done.\n");
}
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if(doStore) storeall();
}
}
namespace tree {
edgetype *tree_edge;
struct treevertex {
int origid;
int parent;
int depth;
int spos, epos;
vector<int> children;
};
vector<treevertex> tol;
void child(int pid, int id) {
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if(isize(tol) <= id) tol.resize(id+1);
treevertex& v = tol[id];
v.parent = pid;
tol.push_back(v);
if(pid >= 0) tol[pid].children.push_back(id);
}
void readnode(FILE *f, int pid) {
string lab = "";
while(true) {
int c = fgetc(f);
if(c == EOF) { fprintf(stderr, "Ended prematurely\n"); exit(1); }
if(c == ',') break;
if(c == ')') { int id = getnewid(lab); child(pid, id); return; }
lab += c;
}
int id = getnewid(lab);
child(pid, id);
while(true) {
int c = fgetc(f);
// printf("c=%c at %d/%d\n", c, pid, id);
if(c == EOF) { fprintf(stderr, "Ended prematurely\n"); exit(1); }
if(c == ' ' || c == 10 || c == 13 || c == 9 || c == ',') continue;
else if(c == '(') readnode(f, id);
else if(c == ')') break;
}
}
int xpos;
void spos(int at, int d) {
tol[at].spos = xpos++;
tol[at].depth = d;
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for(int i=0; i<isize(tol[at].children); i++)
spos(tol[at].children[i], d+1);
tol[at].epos = ++xpos;
}
void read(string fn) {
fname = fn;
init(); kind = kTree;
tree_edge = add_edgetype("tree edge");
printf("Reading the tree of life...\n");
FILE *f = fopen(fname.c_str(), "rt");
if(!f) { printf("Failed to open tree file: %s\n", fname.c_str()); exit(1); }
if(fgetc(f) != '(') {
printf("Error: bad format\n");
exit(1);
}
readnode(f, -1);
fclose(f);
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int N = isize(vdata);
printf("N = %d\n", N);
printf("Assigning spos/epos...\n");
spos(0, 0);
xpos *= 6;
printf("Creating vertices...\n");
for(int i=0; i<N; i++) {
treevertex& lv = tol[i];
vertexdata& vd = vdata[i];
transmatrix h = spin((lv.spos + lv.epos) * M_PI / xpos) * xpush(-1.2 + (log(xpos) - log(lv.epos - lv.spos)));
vd.special = false;
vd.m = new shmup::monster;
vd.m->pid = i;
vd.data = lv.parent;
createViz(i, cwt.at, h);
vd.cp = dftcolor;
if(tol[i].parent >= 0)
addedge(i, tol[i].parent, 1, true, tree_edge);
}
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for(int i=0; i<isize(vdata); i++) {
vertexdata& vd = vdata[i];
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virtualRebase(vd.m);
}
printf("Clearing the TOL data...\n");
tol.clear();
storeall();
}
}
ld maxweight;
namespace sag {
int sagpar = 0;
enum eSagmode { sagOff, sagHC, sagSA };
eSagmode sagmode; // 0 - off, 1 - hillclimbing, 2 - SA
const char *sagmodes[3] = {"off", "HC", "SA"};
ld temperature = -4;
const int INSNAKE = 117;
int numsnake;
const char *loadfname;
#define MAXSNAKETAB 1000
int sdist[MAXSNAKETAB][MAXSNAKETAB];
int insnaketab = 0;
vector<cell*> snakecells;
vector<int> snakefirst, snakelast;
vector<int> snakenode;
vector<int> snakeid;
vector<int> lpbak;
vector<int> wpbak;
bool snake_enabled;
void setsnake(cellwalker& cw, int i) {
lpbak[i] = cw.at->landparam;
wpbak[i] = cw.at->wparam;
cw.at->landparam = i; cw.at->wparam = INSNAKE;
// cw.at->monst = moWormtail; cw.at->mondir = cw.spin;
snakecells[i] = cw.at;
}
void snakeswitch() {
for(int i=0; i<numsnake; i++) {
cell *c = snakecells[i];
int x;
x = lpbak[i]; lpbak[i] = c->landparam; c->landparam = x;
x = wpbak[i]; wpbak[i] = c->wparam; c->wparam = x;
}
snake_enabled = !snake_enabled;
}
void enable_snake() { if(!snake_enabled) snakeswitch(); }
void disable_snake() { if(snake_enabled) snakeswitch(); }
int snakedist(int i, int j) {
if(i < insnaketab && j < insnaketab) return sdist[i][j];
if(bounded) return celldistance(snakecells[i], snakecells[j]);
int i0 = i, i1 = i, j0 = j, j1 = j;
int cost = 0;
// intersect
while(true) {
if(j0 > i1+1) { j0 = snakefirst[j0], j1 = snakelast[j1]; cost++; }
else if(i0 > j1+1) { i0 = snakefirst[i0], i1 = snakelast[i1]; cost++; }
else if(j1+1 == i0) return cost+1;
else if(i1+1 == j0) return cost+1;
else return cost;
}
}
void initSnake(int n) {
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if(bounded) n = isize(currentmap->allcells());
numsnake = n;
snakecells.resize(numsnake);
snakefirst.resize(numsnake);
snakelast.resize(numsnake);
snakenode.resize(numsnake);
lpbak.resize(numsnake);
wpbak.resize(numsnake);
if(bounded) {
for(int i=0; i<n; i++) {
cellwalker cw(currentmap->allcells()[i], 0);
setsnake(cw, i);
}
}
else {
cellwalker cw = cwt;
setsnake(cw, 0);
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cw += wstep;
setsnake(cw, 1);
for(int i=2; i<=numsnake; i++) {
if(i == numsnake && sphere) break;
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cw += wstep;
snakefirst[i-1] = cw.at->landparam;
while(cw.at->wparam == INSNAKE) {
snakelast[i-1] = cw.at->landparam;
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cw = cw + wstep + 1 + wstep;
}
if(i == numsnake) break;
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setsnake(cw, i); cw += 1;
}
}
int stab = min(numsnake, MAXSNAKETAB);
for(int i=0; i<stab; i++)
for(int j=0; j<stab; j++)
sdist[i][j] = snakedist(i,j);
insnaketab = stab;
snake_enabled = true;
}
double costat(int vid, int sid) {
if(vid < 0) return 0;
double cost = 0;
vertexdata& vd = vdata[vid];
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for(int j=0; j<isize(vd.edges); j++) {
edgeinfo *ei = vd.edges[j].second;
int t2 = vd.edges[j].first;
if(snakeid[t2] != -1) cost += snakedist(sid, snakeid[t2]) * ei->weight2;
}
/* cell *c = snakecells[id];
for(int i=0; i<c->type; i++) {
cell *c2 = c->move(i);
if(c2 && c2->wparam == INSNAKE && snakenode[c2->landparam] >= 0)
cost += 100;
} */
return cost;
}
// std::mt19937 los;
bool infullsa;
double cost;
int N;
vector<double> chgs;
edgetype *sag_edge;
void forgetedges(int id) {
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for(int i=0; i<isize(vdata[id].edges); i++)
vdata[id].edges[i].second->orig = NULL;
}
bool chance(double p) {
p *= double(hrngen.max()) + 1;
auto l = hrngen();
auto pv = (decltype(l)) p;
if(l < pv) return true;
if(l == pv) return chance(p-pv);
return false;
}
void saiter() {
aiter:
int t1 = hrand(N);
int sid1 = snakeid[t1];
int sid2;
int s = hrand(6);
if(s == 3) s = 2;
if(s == 4) s = 5;
if((sagpar&1) && (s == 2 || s == 3 || s == 4)) return;
if(s == 5) sid2 = hrand(numsnake);
else {
cell *c;
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if(s>=2 && isize(vdata[t1].edges)) c = snakecells[snakeid[hrand(isize(vdata[t1].edges))]];
else c = snakecells[sid1];
int it = s<2 ? (s+1) : s-2;
for(int ii=0; ii<it; ii++) {
int d = hrand(c->type);
c = c->move(d);
if(!c) goto aiter;
if(c->wparam != INSNAKE) goto aiter;
}
sid2 = c->landparam;
}
int t2 = snakenode[sid2];
snakenode[sid1] = -1; snakeid[t1] = -1;
snakenode[sid2] = -1; if(t2 >= 0) snakeid[t2] = -1;
double change =
costat(t1,sid2) + costat(t2,sid1) - costat(t1,sid1) - costat(t2,sid2);
snakenode[sid1] = t1; snakeid[t1] = sid1;
snakenode[sid2] = t2; if(t2 >= 0) snakeid[t2] = sid2;
if(change < 0) chgs.push_back(-change);
if(change > 0 && (sagmode == sagHC || !chance(exp(-change * exp(-temperature))))) return;
snakenode[sid1] = t2; snakenode[sid2] = t1;
snakeid[t1] = sid2; if(t2 >= 0) snakeid[t2] = sid1;
if(vdata[t1].m) vdata[t1].m->base = snakecells[sid2];
if(t2 >= 0 && vdata[t2].m) vdata[t2].m->base = snakecells[sid1];
cost += 2*change;
if(t1 >= 0) forgetedges(t1);
if(t2 >= 0) forgetedges(t2);
}
void organize() {
for(int i=0; i<numsnake; i++) snakenode[i] = -1;
vector<int> freenodes;
for(int i=0; i<N; i++)
if(snakeid[i] != -1)
snakenode[snakeid[i]] = i;
for(int i=0; i<N; i++)
if(snakeid[i] != -1)
if(snakenode[snakeid[i]] != i)
snakeid[i] = -1;
for(int i=0; i<numsnake; i++)
if(snakenode[i] == -1)
freenodes.push_back(i);
int j = 0;
for(int i=0; i<N; i++)
if(snakeid[i] == -1) {
snakeid[i] = freenodes[j];
snakenode[freenodes[j]] = i;
j++;
}
cost = 0; for(int i=0; i<N; i++) cost += costat(i, i);
}
void loadsnake(const string& fname) {
printf("Loading the sag from: %s\n", fname.c_str());
FILE *sf = fopen(fname.c_str(), "rt");
if(!sf) { printf("Failed to open file.\n"); exit(1); }
if(sf) while(true) {
string lab;
while(true) {
int c = fgetc(sf);
if(c == EOF) goto afterload;
else if(c == 10 || c == 13 || c == 32 || c == 9) ;
else if(c == ',' || c == ';') break;
else lab += c;
}
int sid = -1;
int err = fscanf(sf, "%d", &sid);
if(sid < 0 || sid >= numsnake || err < 1) sid = -1;
if(!labeler.count(lab)) {
printf("unknown vertex: %s\n", lab.c_str());
}
else {
int id = getid(lab);
snakeid[id] = sid;
}
}
afterload:
if(sf) fclose(sf);
organize();
for(int i=0; i<N; i++) {
if(vdata[i].m) vdata[i].m->base = snakecells[sag::snakeid[i]];
forgetedges(i);
}
shmup::fixStorage();
}
vector<edgeinfo> sagedges;
/* bool totcmp(int i, int j) {
return totwei[i] > totwei[j];
} */
int ipturn = 100;
int numiter = 0;
int hightemp = 10;
int lowtemp = -15;
void dofullsa(int satime) {
sagmode = sagSA;
enable_snake();
int t1 = SDL_GetTicks();
while(true) {
int t2 = SDL_GetTicks();
double d = (t2-t1) / (1000. * satime);
if(d > 1) break;
temperature = hightemp - (d*(hightemp-lowtemp));
chgs.clear();
for(int i=0; i<50000; i++) {
numiter++;
sag::saiter();
}
DEBB(DF_LOG, (format("it %8d temp %6.4f [1/e at %13.6f] cost = %f ",
numiter, double(sag::temperature), (double) exp(sag::temperature),
double(sag::cost))));
sort(chgs.begin(), chgs.end());
int cc = chgs.size() - 1;
DEBB(DF_LOG, (format("%9.4f .. %9.4f .. %9.4f .. %9.4f .. %9.4f\n",
double(chgs[0]), double(chgs[cc/4]), double(chgs[cc/2]), double(chgs[cc*3/4]), double(chgs[cc]))));
fflush(stdout);
}
temperature = -5;
disable_snake();
sagmode = sagOff;
}
void iterate() {
if(!sagmode) return;
int t1 = SDL_GetTicks();
enable_snake();
for(int i=0; i<ipturn; i++) {
numiter++;
sag::saiter();
}
disable_snake();
int t2 = SDL_GetTicks();
int t = t2 - t1;
if(t < 50) ipturn *= 2;
else if(t > 200) ipturn /= 2;
else ipturn = ipturn * 100 / t;
DEBB(DF_LOG, ("it %8d temp %6.4f [2:%8.6f,10:%8.6f,50:%8.6f] cost = %f\n",
numiter, double(sag::temperature),
(double) exp(-2 * exp(-sag::temperature)),
(double) exp(-10 * exp(-sag::temperature)),
(double) exp(-50 * exp(-sag::temperature)),
(double) sag::cost));
}
void savesnake(const string& fname) {
FILE *f = fopen(fname.c_str(), "wt");
for(int i=0; i<N; i++)
fprintf(f, "%s;%d\n", vdata[i].name.c_str(), snakeid[i]);
fclose(f);
}
void loglik() {
int indist[30], pedge[30];
for(int d=0; d<30; d++) indist[d] = 0, pedge[d] = 0;
for(int i=0; i<N; i++)
for(int j=0; j<i; j++)
indist[snakedist(snakeid[i], snakeid[j])]++;
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for(int i=0; i<isize(sagedges); i++) {
edgeinfo& ei = sagedges[i];
if(snakedist(snakeid[ei.i], snakeid[ei.j]) == 0) {
printf("zero between %d (%s) and %d (%s)\n",
snakeid[ei.i], vdata[ei.i].name.c_str(),
snakeid[ei.j], vdata[ei.j].name.c_str());
}
if(ei.weight >= sag_edge->visible_from)
pedge[snakedist(snakeid[ei.i], snakeid[ei.j])]++;
}
for(int d=0; d<30; d++)
if(indist[d])
printf("%2d: %7d/%7d %7.3lf\n",
d, pedge[d], indist[d], double(pedge[d] * 100. / indist[d]));
ld loglik = 0;
for(int d=0; d<30; d++) {
int p = pedge[d], pq = indist[d];
int q = pq - p;
if(p && q)
loglik += p * log(p) + q * log(q) - pq * log(pq);
}
println(hlog, "loglikelihood = ", fts(loglik));
}
void readsag(const char *fname) {
maxweight = 0;
sag_edge = add_edgetype("SAG edge");
fhstream f(fname, "rt");
if(!f.f) { printf("Failed to open SAG file: %s\n", fname); exit(1); }
// while(fgetc(f) != 10 && fgetc(f) != 13 && !feof(f)) ;
while(!feof(f.f)) {
string l1, l2;
while(true) {
int c = fgetc(f.f);
if(c == EOF) return;
else if(c == ';') break;
else if(c == 10 || c == 13 || c == 32 || c == 9) ;
else l1 += c;
}
while(true) {
int c = fgetc(f.f);
if(c == EOF) return;
else if(c == ';') break;
else if(c == 10 || c == 13 || c == 32 || c == 9) ;
else l2 += c;
}
ld wei;
if(!scan(f, wei)) continue;
edgeinfo ei(sag_edge);
ei.i = getid(l1);
ei.j = getid(l2);
ei.weight = wei;
sagedges.push_back(ei);
}
}
ld edgepower=1, edgemul=1;
void read(string fn) {
fname = fn;
init(); kind = kSAG;
temperature = 0; sagmode = sagOff;
readsag(fname.c_str());
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N = isize(vdata);
// totwei.resize(N);
// for(int i=0; i<N; i++) totwei[i] = 0;
for(int i=0; i<N; i++) vdata[i].data = 0;
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/* for(int i=0; i<isize(sagedges); i++) {
edgeinfo& ei = sagedges[i];
// maxwei[ei.i] = max(maxwei[ei.i], ei.weight);
// maxwei[ei.j] = max(maxwei[ei.j], ei.weight);
// totwei[ei.i] += ei.weight;
// totwei[ei.j] += ei.weight;
} */
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for(int i=0; i<isize(sagedges); i++) {
edgeinfo& ei = sagedges[i];
// (ei.weight >= maxwei[ei.i] / 5 || ei.weight >= maxwei[ei.j] / 5);
ei.weight2 = pow((double) ei.weight, (double) edgepower) * edgemul;
// LANG:: pow(ei.weight, .4) / 50;
// ei.weight2 = 0; int w = ei.weight; while(w) { w >>= 1; ei.weight2++; }
/* if(totwei[ei.i] <= 0 || totwei[ei.j] <= 0) {
printf("BAD TOTWEI\n");
exit(1);
}
ei.weight2 = 3 * (
sqrt(ei.weight * 1. / totwei[ei.i]) * log(totwei[ei.i]) * log(totwei[ei.i]) +
sqrt(ei.weight * 1. / totwei[ei.j]) * log(totwei[ei.j]) * log(totwei[ei.j])); */
// printf("%f\n", ei.weight2);
addedge0(ei.i, ei.j, &ei);
}
initSnake(N*2);
printf("numsnake = %d\n", numsnake);
if(numsnake < N) {
printf("Error: snake does not fit\n");
exit(1);
}
snakeid.resize(N);
for(int i=0; i<N; i++) snakeid[i] = -1;
organize();
disable_snake();
for(int i=0; i<N; i++) {
int ii = i;
vertexdata& vd = vdata[ii];
vd.cp = colorpair(dftcolor);
createViz(ii, sag::snakecells[sag::snakeid[i]], Id);
}
storeall();
}
}
bool edgecmp(edgeinfo *e1, edgeinfo *e2) {
return e1->weight > e2->weight;
}
bool which_weight = false;
void rogueviz_help(int id, int pagenumber) {
vertexdata& vd = vdata[id];
int noedges = isize(vd.edges);
help = helptitle(vd.name, vd.cp.color1 >> 8);
if(vd.info) {
#if CAP_URL
help_extension hex;
hex.key = 'L';
hex.text = "open link";
hex.subtext = *vd.info;
hex.action = [&vd] () { open_url(*vd.info); };
help_extensions.push_back(hex);
#else
help += "\n\nlink: " + *vd.info;
#endif
}
vector<edgeinfo*> alledges;
for(int j=0; j<isize(vd.edges); j++)
alledges.push_back(vd.edges[j].second);
sort(alledges.begin(), alledges.end(), edgecmp);
for(int i=0; i<10 && i+pagenumber < noedges; i++) {
help_extension hex;
hex.key = 'a' + i;
edgeinfo *ei = alledges[pagenumber + i];
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if(ei->weight < ei->type->visible_from_help) continue;
int k = ei->i ^ ei->j ^ id;
hex.text = vdata[k].name;
hex.color = vdata[k].cp.color1 >> 8;
if(kind == kSAG) {
if(which_weight)
hex.subtext = fts(ei->weight2);
else
hex.subtext = fts(ei->weight);
}
hex.action = [k] () { help_extensions.clear(); rogueviz_help(k, 0); };
help_extensions.push_back(hex);
}
if(noedges > pagenumber + 10) {
help_extension hex;
hex.key = 'z';
hex.text = "next page";
hex.subtext = its(pagenumber+10) + "/" + its(noedges) + " edges";
hex.action = [id, pagenumber] () { help_extensions.clear(); rogueviz_help(id, pagenumber + 10); };
help_extensions.push_back(hex);
}
if(kind == kSAG && noedges) {
help_extension hex;
hex.key = 'w';
hex.text = "displayed weight";
hex.subtext = which_weight ? "attraction force" : "weight from the data";
hex.action = [id, pagenumber] () { which_weight = !which_weight; help_extensions.clear(); rogueviz_help(id, pagenumber); };
help_extensions.push_back(hex);
}
}
bool describe_monster(shmup::monster *m, string& out) {
if(m->type != moRogueviz) return false;
int i = m->pid;
vertexdata& vd = vdata[i];
string o = vd.name + ", "+its(isize(vd.edges))+" edges";
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/* if(isize(vd.edges) < 10) {
for(int i=0; i<isize(vd.edges); i++)
o += " " + its(snakedist(vd.snakeid, vd.edges[i]->snakeid));
} */
help = bygen([i] () { rogueviz_help(i, 0); });
if(out == XLATN("Canvas")) out = o;
else out = out + ", " + o;
return true;
}
bool activate(shmup::monster *m) {
if(m->type != moRogueviz) return false;
int i = m->pid;
vertexdata& vd = vdata[i];
vd.cp = colorpair(rand() & 0xFFFFFFFF);
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for(int i=0; i<isize(vd.edges); i++)
vd.edges[i].second->orig = NULL;
return true;
/* if(ealpha == 1) ealpha = 8;
else if(ealpha == 8) ealpha = 32;
else if(ealpha == 32) ealpha = 255;
else ealpha = 1; */
}
void storevertex(vector<glvertex>& tab, const hyperpoint& h) {
tab.push_back(glhr::pointtogl(h));
}
double linequality = .1;
void storelineto(vector<glvertex>& tab, const hyperpoint& h1, const hyperpoint& h2) {
if(intval(h1, h2) < linequality)
storevertex(tab, h2);
else {
hyperpoint h3 = mid(h1, h2);
storelineto(tab, h1, h3);
storelineto(tab, h3, h2);
}
}
void storeline(vector<glvertex>& tab, const hyperpoint& h1, const hyperpoint& h2) {
storevertex(tab, h1);
storelineto(tab, h1, h2);
}
color_t darken_a(color_t c) {
for(int p=0; p<3; p++)
for(int i=0; i<darken; i++) part(c, i+1) = (part(c, i+1) + part(backcolor, i)) >> 1;
return c;
}
#if CAP_SVG
#define SVG_LINK(x) svg::link = (x)
#else
#define SVG_LINK(x)
#endif
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void queuedisk(const transmatrix& V, const colorpair& cp, bool legend, const string* info, int i) {
if(legend && (int) cp.color1 == (int) 0x000000FF && backcolor == 0)
poly_outline = 0x606060FF;
else
poly_outline = (bordcolor << 8) | 0xFF;
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if(cp.img) {
for(hyperpoint h: cp.img->vertices)
curvepoint(V * h);
auto& qc = queuecurve(0, 0xFFFFFFFF, PPR::MONSTER_HEAD);
qc.tinf = &cp.img->tinf;
qc.flags |= POLY_TRIANGLES;
return;
}
transmatrix V1;
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auto& sh =
vertex_shape == 2 ? cgi.shHeptaMarker :
vertex_shape == 3 ? cgi.shSnowball :
cgi.shDisk;
if(vertex_shape == 0) ;
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else if(GDIM == 3 && among(cp.shade, 'b', 'f', 'g', 'B', 'F', 'G')) {
V1 = V;
}
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else if(GDIM == 3) {
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V1 = face_the_player(V);
if(info) queueaction(PPR::MONSTER_HEAD, [info] () { SVG_LINK(*info); });
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queuepolyat(V1, sh, darken_a(cp.color1), PPR::MONSTER_HEAD);
if(info) queueaction(PPR::MONSTER_HEAD, [] () { SVG_LINK(""); });
V1 = V;
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}
else if(rog3) {
int p = poly_outline; poly_outline = OUTLINE_TRANS;
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queuepolyat(V, sh, 0x80, PPR::MONSTER_SHADOW);
poly_outline = p;
if(info) queueaction(PPR::MONSTER_HEAD, [info] () { SVG_LINK(*info); });
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queuepolyat(V1 = mscale(V, cgi.BODY), sh, darken_a(cp.color1), PPR::MONSTER_HEAD);
if(info) queueaction(PPR::MONSTER_HEAD, [] () { SVG_LINK(""); });
}
else {
if(info) queueaction(PPR::MONSTER_HEAD, [info] () { SVG_LINK(*info); });
queuepoly(V1 = V, sh, darken_a(cp.color1));
if(info) queueaction(PPR::MONSTER_HEAD, [] () { SVG_LINK(""); });
}
switch(cp.shade) {
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case 't': queuepoly(V1, cgi.shDiskT, darken_a(cp.color2)); return;
case 's': queuepoly(V1, cgi.shDiskS, darken_a(cp.color2)); return;
case 'q': queuepoly(V1, cgi.shDiskSq, darken_a(cp.color2)); return;
case 'm': queuepoly(V1, cgi.shDiskM, darken_a(cp.color2)); return;
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case 'b': queuepoly(V1, GDIM == 3 ? cgi.shAnimatedTinyEagle[wingphase(200)] : cgi.shTinyBird, darken_a(cp.color2)); return;
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case 'f': queuepoly(V1, cgi.shTinyShark, darken_a(cp.color2)); return;
case 'g': queuepoly(V1, cgi.shMiniGhost, darken_a(cp.color2)); return;
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case 'B': queuepoly(V1, GDIM == 3 ? cgi.shAnimatedEagle[wingphase(100)] : cgi.shEagle, darken_a(cp.color2)); return;
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case 'F': queuepoly(V1, cgi.shShark, darken_a(cp.color2)); return;
case 'G': queuepoly(V1, cgi.shGhost, darken_a(cp.color2)); return;
}
}
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unordered_map<pair<edgeinfo*, int>, int> drawn_edges;
map<pair<cell*, cell*>, transmatrix> relmatrices;
transmatrix& memo_relative_matrix(cell *c1, cell *c2) {
auto& p = relmatrices[make_pair(c1, c2)];
if(p[2][2] == 0)
p = calc_relative_matrix(c1, c2, C0);
return p;
}
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void queue_prec(const transmatrix& V, edgeinfo*& ei, color_t col) {
if(!fat_edges)
queuetable(V, ei->prec, isize(ei->prec), col, 0, PPR::STRUCT0);
#if MAXMDIM >= 4
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else {
auto& t = queuetable(V, ei->prec, isize(ei->prec), 0, col | 0x000000FF, PPR::STRUCT0);
t.flags |= (1<<22), // poly triangles
t.offset_texture = 0,
t.tinf = &ei->tinf;
t.tinf->texture_id = floor_textures->renderedTexture;
}
#endif
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}
bool drawVertex(const transmatrix &V, cell *c, shmup::monster *m) {
if(m->dead) return true;
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if(m->type != moRogueviz) return false;
int i = m->pid;
vertexdata& vd = vdata[i];
// bool ghilite = false;
// if(vd.special && specialmark) ghilite = true;
if(!gmatrix.count(m->base)) printf("base not in gmatrix\n");
int lid = shmup::lmousetarget ? shmup::lmousetarget->pid : -2;
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if(!leftclick) for(int j=0; j<isize(vd.edges); j++) {
edgeinfo *ei = vd.edges[j].second;
vertexdata& vd1 = vdata[ei->i];
vertexdata& vd2 = vdata[ei->j];
int oi = ei->i, oj = ei->j;
bool hilite = false;
if(vdata[oi].special && vdata[oj].special && specialmark) hilite = true;
else if(svg::in || inHighQual) hilite = false;
else if(vd1.m == shmup::lmousetarget) hilite = true;
else if(vd2.m == shmup::lmousetarget) hilite = true;
else if(oi == lid || oj == lid) hilite = true;
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if(ei->weight < (hilite ? ei->type->visible_from_hi : ei->type->visible_from)) continue;
// if(hilite) ghilite = true;
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bool multidraw = quotient;
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if(ei->lastdraw < frameid || multidraw) {
ei->lastdraw = frameid;
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color_t col = (hilite ? ei->type->color_hi : ei->type->color);
auto& alpha = part(col, 0);
if(kind == kSAG) {
if(ei->weight2 > maxweight) maxweight = ei->weight2;
alpha *= pow(ei->weight2 / maxweight, ggamma);
}
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// if(hilite || hiliteclick) alpha = (alpha + 256) / 2;
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if(svg::in && alpha < 16) continue;
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if(ISWEB) {
if(alpha >= 128) alpha |= 15;
else if(alpha >= 64) alpha |= 7;
else if(alpha >= 32) alpha |= 3;
else if(alpha >= 16) alpha |= 1;
}
alpha >>= darken;
transmatrix gm1 =
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(multidraw || elliptic) ? V * memo_relative_matrix(vd1.m->base, c) :
ggmatrix(vd1.m->base);
transmatrix gm2 =
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(multidraw || elliptic) ? V * memo_relative_matrix(vd2.m->base, c) :
ggmatrix(vd2.m->base);
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hyperpoint h1 = gm1 * vd1.m->at * C0;
hyperpoint h2 = gm2 * vd2.m->at * C0;
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if(elliptic && intval(h1, h2) > intval(h1, centralsym * h2))
h2 = centralsym * h2;
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if(multidraw) {
int code = int(h1[0]) + int(h1[1]) * 12789117 + int(h2[0]) * 126081253 + int(h2[1]) * 126891531;
int& lastdraw = drawn_edges[make_pair(ei, code)];
if(lastdraw == frameid) continue;
lastdraw = frameid;
}
/* if(hdist0(h1) < .001 || hdist0(h2) < .001) {
printf("h1 = %s\n", display(h1));
printf("h2 = %s\n", display(h2));
display(m->at);
display(vd2.m->at);
display(V);
display(gmatrix[vd2.m->base]);
display(shmup::calc_gmatrix(vd2.m->base));
} */
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if((col >> 8) == (DEFAULT_COLOR >> 8)) {
col &= 0xFF;
col |= (forecolor << 8);
}
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bool onspiral = kind == kSpiral && abs(ei->i - ei->j) == 1;
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if((pmodel || onspiral) && !fat_edges) {
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if(onspiral) {
const int prec = 20;
transmatrix T = ggmatrix(currentmap->gamestart());
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hyperpoint l1 = T*tC0(spiral::at(1+ei->i));
for(int z=1; z<=prec; z++) {
hyperpoint l2 = T*tC0(spiral::at(1+ei->i+(ei->j-ei->i) * z / (prec+.0)));
queueline(l1, l2, col, vid.linequality).prio = PPR::STRUCT0;
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l1 = l2;
}
}
else {
queueline(h1, h2, col, 2 + vid.linequality).prio = PPR::STRUCT0;
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}
}
else {
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cell *center = multidraw ? c : centerover;
if(!multidraw && ei->orig && ei->orig != center && celldistance(ei->orig, center) > 3)
ei->orig = NULL;
if(!ei->orig) {
ei->orig = center; // cwt.at;
ei->prec.clear();
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transmatrix T = inverse(ggmatrix(ei->orig));
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if(fat_edges) {
ei->tinf.tvertices.clear();
transmatrix T1 = inverse(gm1 * vd1.m->at);
hyperpoint goal = T1 * h2;
transmatrix S = T * gm1 * vd1.m->at * rspintox(goal);
ld d = hdist0(goal);
for(int a=0; a<360; a+=30) {
auto store = [&] (ld a, ld b) {
storevertex(ei->prec, S * cpush(0, b) * hr::cspin(1, 2, a * degree) * cpush(1, fat_edges) * C0);
ei->tinf.tvertices.push_back(glhr::makevertex(0,(3+cos(a * degree))/4,0));
};
store(a, 0);
store(a+30, 0);
store(a, d);
store(a+30, 0);
store(a, d);
store(a+30, d);
}
}
else if(kind == kSpiral && abs(ei->i - ei->j) == 1) {
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ei->orig = currentmap->gamestart();
hyperpoint l1 = tC0(spiral::at(1+ei->i));
storevertex(ei->prec, l1);
const int prec = 20;
for(int z=1; z<=prec; z++) {
hyperpoint l2 = tC0(spiral::at(1+ei->i+(ei->j-ei->i) * z / (prec+.0)));
storeline(ei->prec, l1, l2);
l1 = l2;
}
}
else
storeline(ei->prec, T*h1, T*h2);
}
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queue_prec(multidraw ? V : ggmatrix(ei->orig), ei, col);
if(elliptic) queue_prec(centralsym * ggmatrix(ei->orig), ei, col);
}
}
/*
*/
}
if(!vd.virt) {
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queuedisk(V * m->at, vd.cp, false, vd.info, i);
}
if(showlabels) {
bool doshow = true;
if(kind == kTree && i > 0 && !vd.virt) {
vertexdata& vdp = vdata[vd.data];
hyperpoint h2 = ggmatrix(vdp.m->base) * vdp.m->at * C0;
if(hdist(h2, V * m->at * C0) < 0.1) doshow = false;
}
hyperpoint h = tC0(V * m->at);
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transmatrix V2 = GDIM == 3 ? V * m->at : rgpushxto0(h) * ypush(PURE ? .3 : .2); // todo-variation
if(doshow && !behindsphere(V2)) {
auto info = vd.info;
if(info) queueaction(PPR::MONSTER_HEAD, [info] () { SVG_LINK(*info); });
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queuestr(V2, (svg::in ? .28 : .2) * cgi.crossf / cgi.hcrossf, vd.name, forecolor, (svg::in || ISWEB) ? 0 : 1);
if(info) queueaction(PPR::MONSTER_HEAD, [] () { SVG_LINK(""); });
}
}
if(kind == kCollatz) {
if(c->cpdist > 7 && euclid) ;
else if(vd.data == 2) {
// doubler vertex
string s = vd.name;
colorpair cp = vd.cp;
vd.data = 20;
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int i0 = isize(vdata);
vdata.resize(i0+1);
vertexdata& vdn = vdata[i0];
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createViz(i0, m->base, m->at * collatz::T2);
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virtualRebase(vdn.m);
vdn.cp = perturb(cp);
vdn.data = 0;
addedge(i, i0, 1, false, collatz::collatz1);
vdn.m->store();
int carry = 0;
string s2 = s;
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for(int i=isize(s2)-1; i>=0; i--) {
int x = 2*(s2[i] - '0') + carry;
carry = x>=10;
if(carry) x-=10;
s2[i] = '0'+x;
}
if(carry) s2 = "1" + s2;
vdn.name = s2;
int m3 = 0;
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for(int i=0; i<isize(s); i++) m3 += s[i] - '0';
if(m3 % 3 == 2 && s != "2" && s != "1") {
vdata.resize(i0+2);
vertexdata& vdn = vdata[i0+1];
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createViz(i0+1, m->base, m->at * collatz::T3);
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virtualRebase(vdn.m);
vdn.cp = perturb(cp);
vdn.data = 0;
addedge(i, i0+1, 1, false, collatz::collatz2);
vdn.m->store();
int carry = -1;
string s2 = s;
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for(int i=isize(s2)-1; i>=0; i--) {
carry += 2 * (s2[i] - '0');
int ncarry = 0;
while(carry % 3) carry += 10, ncarry--;
if(carry >= 30) carry -= 30, ncarry += 3;
s2[i] = '0'+carry/3;
carry = ncarry;
}
if(s2[0] == '0') s2 = s2.substr(1);
vdn.name = s2;
vdn.cp = perturb(vdn.cp);
}
}
else if(vd.data < 2) {
vd.data++;
fixmatrix(vd.m->at);
}
}
return true;
}
vector<int> legend;
vector<cell*> named;
color_t chosen_legend_color = DEFAULT_COLOR;
bool rogueviz_hud() {
color_t legend_color = chosen_legend_color == DEFAULT_COLOR ? forecolor : chosen_legend_color;
if(!rogueviz::on) return false;
if(cmode & sm::DRAW) return false;
int qet = isize(edgetypes);
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if(qet == 1 || !edge_legend) qet = 0;
int legit = qet + isize(legend);
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if(legit == 0) return true;
initquickqueue();
int rad = current_display->radius/10;
ld x = vid.xres - rad;
for(int i=0; i<isize(legend); i++) {
int k = legend[i];
vertexdata& vd = vdata[k];
ld y = (current_display->radius * (i+.5)) / legit * 2 - current_display->radius + vid.yres/2;
transmatrix V = atscreenpos(x, y, current_display->radius/4);
poly_outline = OUTLINE_NONE;
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queuedisk(V, vd.cp, true, NULL, i);
poly_outline = OUTLINE_DEFAULT;
queuestr(int(x-rad), int(y), 0, rad*(svg::in?5:3)/4, vd.name, legend_color, 0, 16);
}
for(int i=0; i<qet; i++) {
auto t = edgetypes[i];
ld y = (current_display->radius * (i+isize(legend)+.5)) / legit * 2 - current_display->radius + vid.yres/2;
transmatrix V = atscreenpos(x, y, current_display->radius/8);
poly_outline = t->color | 0xFF;
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queuepolyat(V, cgi.shTriangle, 0, PPR::MONSTER_HEAD);
poly_outline = OUTLINE_DEFAULT;
queuestr(int(x-rad), int(y), 0, rad*(svg::in?5:3)/4, t->name, legend_color, 0, 16);
}
quickqueue();
return true;
}
void drawExtra() {
if(kind == kFullNet) {
for(map<cell*, transmatrix>::iterator it = gmatrix.begin(); it != gmatrix.end(); it++) {
cell *c = it->first;
c->wall = waChasm;
}
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int index = 0;
for(map<cell*, transmatrix>::iterator it = gmatrix.begin(); it != gmatrix.end(); it++) {
cell *c = it->first;
bool draw = true;
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for(int i=0; i<isize(named); i++) if(named[i] == c) draw = false;
if(draw && gmatrix.count(c))
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queuedisk(it->second, dftcolor, false, NULL, index++);
// queuepolyat(it->second, shDisk, dftcolor., PPR::LINE);
}
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for(int i=0; i<isize(named); i++) if(gmatrix.count(named[i])) {
string s = ""; s += 'A'+i;
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queuestr(gmatrix[named[i]], 1, s, forecolor, 1);
}
canmove = true; items[itOrbAether] = true;
}
}
void readcolor(const string& cfname) {
FILE *f = fopen(cfname.c_str(), "rt");
if(!f) { printf("color file missing\n"); exit(1); }
while(true) {
string lab = "";
while(true) {
int c = fgetc(f);
if(c == EOF) { fclose(f); return; }
else if(c == 10 || c == 13 || c == 32 || c == 9) ;
else if(c == ',' || c == ';') break;
else lab += c;
}
colorpair x;
int c2 = fgetc(f);
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int known_id = -1;
bool force = false;
if(kohonen::samples && c2 == '!') {
force = true;
c2 = fgetc(f);
if(c2 == 10 || c2 == 13) continue;
}
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if(kohonen::samples && c2 == '+') {
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known_id = kohonen::showsample(lab);
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c2 = fgetc(f);
if(c2 == 10 || c2 == 13) continue;
}
if(c2 == '#') {
while(c2 != 10 && c2 != 13 && c2 != -1) c2 = fgetc(f);
continue;
}
else if(c2 == '=') {
string lab2 = "";
while(true) {
int c = fgetc(f);
if(c == 10 || c == 13 || c == 32 || c == 9 || c == ',' || c == ';' || c == EOF) break;
else lab2 += c;
}
x = vdata[getid(lab2)].cp;
}
else if(c2 == '@') {
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legend.push_back(known_id == -1 ? getid(lab) : known_id);
continue;
}
else if(c2 == '/') {
char buf[600];
int err = fscanf(f, "%500s", buf);
if(err > 0)
vdata[getid(lab)].info = new string(buf); // replace with std::shared_ptr in C++111
continue;
}
else {
ungetc(c2, f);
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char buf[600];
int err = fscanf(f, "%500s", buf);
if(err > 0) x = parse(buf);
}
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if(isize(lab) && lab[0] == '*') {
lab = lab.substr(1);
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for(int i=0; i<isize(vdata); i++)
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if(vdata[i].name.find(lab) != string::npos) {
vdata[i].cp = x;
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}
}
2018-07-05 05:31:27 +00:00
else if(kohonen::samples && !force) {
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for(int i=0; i<isize(vdata); i++)
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if(vdata[i].name == lab) {
vdata[i].cp = x;
}
}
else {
int i = getid(lab);
again: vdata[i].cp = x;
if(kind == kTree) {
i = vdata[i].data;
if(i >= 0) goto again;
}
}
}
}
void init() {
if(on) return;
autocheat = true;
showstartmenu = false;
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#if !ISWEB
mapeditor::drawplayer = false;
stop_game();
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firstland = specialland = laCanvas;
restart_game(shmup::on ? rg::shmup : rg::nothing);
#else
stop_game();
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firstland = specialland = laCanvas;
restart_game(rg::nothing);
#endif
on = true;
autocheat = true;
items[itOrbLife] = 0;
timerghost = false;
gmatrix.clear();
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calcparam();
drawthemap();
gmatrix0 = gmatrix;
addMessage("RogueViz enabled");
}
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int search_for = -1;
void close() {
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search_for = -1;
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for(int i=0; i<isize(vdata); i++)
if(vdata[i].m) vdata[i].m->dead = true;
vdata.clear();
labeler.clear();
legend.clear();
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for(int i=0; i<isize(edgeinfos); i++) delete edgeinfos[i];
edgeinfos.clear();
anygraph::coords.clear();
sag::sagedges.clear();
edgetypes.clear();
on = false;
relmatrices.clear();
}
bool turn(int delta) {
if(!on) return false;
if(kind == kSAG) sag::iterate(), timetowait = 0;
if(kind == kKohonen) kohonen::steps(), timetowait = 0;
return false;
// shmup::pc[0]->rebase();
}
#ifndef CAP_RVSLIDES
#define CAP_RVSLIDES (CAP_TOUR && !ISWEB)
#endif
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int dimid(char x) {
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if(x >= 'a' && x < 'a' + GDIM) return x - 'a';
else if(x >= '0' && x < '0' + GDIM) return x - '0';
else if(x >= 'x' && x < 'x' + GDIM) return x - 'x';
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else {
println(hlog, "incorrect dimension ID");
throw hr_exception();
}
}
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#if CAP_COMMANDLINE
int readArgs() {
using namespace arg;
// options before reading
if(0) ;
else if(argis("-dftcolor")) {
shift(); dftcolor = parse(args());
}
// tree visualizer (e.g. Tree of Life)
//-------------------------------------
else if(argis("-tree")) {
PHASE(3); shift(); tree::read(args());
}
// SAG visualizer (e.g. Reddit roguelikes, GitHub languages)
//-----------------------------------------------------------
// (1) configure edge weights
else if(argis("-edgepower")) {
shift_arg_formula(sag::edgepower);
shift_arg_formula(sag::edgemul);
}
// (1) configure temperature (high, low)
else if(argis("-sagtemp")) {
shift(); sag::hightemp = argi();
shift(); sag::lowtemp = argi();
}
else if(argis("-sagmin")) {
shift_arg_formula(default_edgetype.visible_from);
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default_edgetype.visible_from_hi = default_edgetype.visible_from;
default_edgetype.visible_from_help = default_edgetype.visible_from;
}
else if(argis("-sagminhi")) {
shift_arg_formula(default_edgetype.visible_from_hi);
}
else if(argis("-sagminhelp")) {
shift_arg_formula(default_edgetype.visible_from_help);
}
// (2) read the edge data
else if(argis("-sagpar")) {
PHASE(3);
shift();
sag::sagpar = argi();
}
else if(argis("-sag")) {
PHASE(3);
shift(); sag::read(args());
}
// (3) load the initial positioning
else if(argis("-gload")) {
PHASE(3); shift(); sag::loadsnake(args());
}
// (4) perform simulated annealing: -fullsa <time in seconds>
else if(argis("-fullsa")) {
shift(); sag::dofullsa(argi());
}
// (5) save the positioning
else if(argis("-gsave")) {
PHASE(3); shift(); sag::savesnake(args());
}
// (6) output loglikelihood
else if(argis("-lik")) {
sag::loglik();
}
// graph visualizer
//------------------
// this visualizes the data from: https://hpi.de/friedrich/research/hyperbolic
else if(argis("-graph")) {
PHASE(3); shift(); anygraph::read(args());
}
// draw spirals
//--------------
// example commandline:
// -spiral 2,10000 -spiraledge 0,2 -spiraledge 1,1 -lab -spiralcolor 2 FF4040FF
else if(argis("-collatz")) {
PHASE(3);
using namespace collatz;
shift(); sscanf(argcs(), "%lf,%lf,%lf,%lf", &s2, &p2, &s3, &p3);
start();
}
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else if(argis("-collatz-go")) {
if(kind != kCollatz) { printf("not in Collatz\n"); throw hr_exception(); }
shift(); int i = argi(); shift(); int j = argi();
if(i <= 0) i = 763;
if(j < 0 || j > 61) j = 61;
collatz::lookup(i, j);
}
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else if(argis("-collatz3")) {
PHASE(3);
using namespace collatz;
s2 = p2 = s3 = p3 = 0;
start();
transmatrix *T = &T2;
while(true) {
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lshift();
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if(arg::nomore()) break;
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else if(argis("fd")) { shift(); *T = *T * xpush(argf()); }
else if(argcs()[0] == 't') { int x = dimid(argcs()[1]); int y = dimid(argcs()[2]); shift(); *T = *T * hr::cspin(x, y, argf()); }
else if(argis("/")) { if(T == &T2) T = &T3; else break; }
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else break;
}
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unshift();
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}
else if(argis("-spiral")) {
PHASE(3);
ld mul = 2;
int N = 1000;
shift(); sscanf(argcs(), LDF ",%d", &mul, &N);
spiral::place(N, mul);
}
else if(argis("-net")) {
PHASE(3);
init(); kind = kFullNet;
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linepatterns::patTriTree.color = 0x30;
linepatterns::patTriOther.color = 0x10;
linepatterns::patTriRings.color = 0xFF;
}
else if(argis("-spiraledge")) {
PHASE(3);
ld shft = 1;
ld mul = 1;
shift(); sscanf(argcs(), LDF "," LDF, &shft, &mul);
spiral::edge(shft, mul);
}
else if(argis("-spiralcolor")) {
PHASE(3);
ld period = 1;
ld start = 1;
shift(); sscanf(argcs(), LDF "," LDF, &period, &start);
start--;
shift();
spiral::color(start, period, parse(args()));
}
// graphical parameters
//------------------
// read the color/legend file
else if(argis("-color")) {
PHASE(3); shift(); readcolor(args());
}
else if(argis("-lab")) {
showlabels = true;
}
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else if(argis("-lab-off")) {
showlabels = false;
}
else if(argis("-rog3")) {
rog3 = true;
}
else if(argis("-rvedge")) {
shift(); default_edgetype.color = default_edgetype.color_hi = arghex();
}
else if(argis("-rvedgehi")) {
shift(); default_edgetype.color_hi = arghex();
}
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else if(argis("-rvfat")) {
shift();
fat_edges = argf();
}
else if(argis("-lcol")) {
shift();
chosen_legend_color = arghex();
}
else if(argis("-ggamma")) {
shift(); ggamma = argf();
}
else if(argis("-cshift")) {
shift_arg_formula(collatz::cshift);
}
else if(argis("-rvwarp")) {
patterns::whichShape = '8';
}
else if(argis("-lq")) {
shift_arg_formula(linequality);
}
#if CAP_RVSLIDES
else if(argis("-rvpres")) {
tour::slides = rvtour::rvslides;
}
#endif
else if(argis("-nolegend")) {
legend.clear();
}
2018-09-08 11:43:10 +00:00
else if(argis("-edgelegend")) {
edge_legend = true;
}
else if(argis("-rvshape")) {
shift(); vertex_shape = argi() & 3;
}
// graphical output
//------------------
// shmup::turn might be necessary when saving screenshots
else if(argis("-TURN")) {
PHASE(3); shmup::turn(100);
}
else return 1;
return 0;
}
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#endif
void configure_edge_display() {
cmode = sm::SIDE | sm::MAYDARK | sm::DIALOG_STRICT_X;
static int mode = 0;
gamescreen(0);
dialog::init(XLAT("rogueviz edges"));
string s3 = kind == kSAG ? "min weight" : kind == kKohonen ? "quantity" : "extent";
for(int i=0; i<isize(edgetypes); i++) {
auto t = edgetypes[i];
switch(mode) {
case 0:
dialog::addSelItem(t->name, itsh(t->color), 'a' + i);
2018-07-09 16:24:11 +00:00
dialog::lastItem().colorv = t->color >> 8;
dialog::add_action([t] {
dialog::openColorDialog(t->color, NULL);
dialog::dialogflags |= sm::MAYDARK | sm::SIDE;
});
break;
case 1:
if(kind == kSAG) {
dialog::addSelItem(t->name, fts(t->visible_from), 'a'+i);
dialog::add_action([t] {
dialog::editNumber(t->visible_from, 0.001, 1000, .1, .1, "min weight", "");
dialog::scaleLog();
});
}
else {
dialog::addSelItem(t->name, its(1 / t->visible_from), 'a'+i);
dialog::add_action([t,s3] {
static int i;
i = 1 / t->visible_from;
dialog::editNumber(i, 1, 1000000, 1, 500, s3, "");
dialog::reaction = [t] () { t->visible_from = i ? 1. / i : 5; };
dialog::scaleLog(); dialog::ne.step = .2;
});
}
break;
default: break;
}
}
dialog::addBreak(100);
if(among(kind, kSAG, kKohonen, kSpiral)) {
dialog::addBoolItem_choice("color/alpha", mode, 0, '1');
dialog::addBoolItem_choice(s3, mode, 1, '2');
}
else mode = 0;
dialog::addBreak(50);
dialog::addBack();
dialog::display();
}
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void search_marker() {
if(search_for >= 0 && search_for < isize(vdata)) {
auto& vd = vdata[search_for];
auto& m = vd.m;
if(!m) return;
hyperpoint H = ggmatrix(m->base) * tC0(m->at);
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queuestr(H, 2*vid.fsize, "X", 0x10101 * int(128 + 100 * sin(ticks / 150.)));
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addauraspecial(H, iinf[itOrbYendor].color, 0);
}
}
void showVertexSearch() {
cmode = sm::SIDE | sm::MAYDARK | sm::DIALOG_STRICT_X;
gamescreen(0); search_for = -1;
dialog::init(XLAT("vertex search"));
dialog::v.clear();
if(dialog::infix != "") mouseovers = dialog::infix;
for(int i=0; i<isize(vdata); i++) if(vdata[i].name != "") dialog::vpush(i, vdata[i].name.c_str());
for(int i=0; i<9; i++) {
if(i < isize(dialog::v)) {
int id = dialog::v[i].second;
dialog::addItem(dialog::v[i].first, '1'+i);
dialog::add_action([id] () {
search_for = id;
popScreenAll();
});
}
else dialog::addBreak(100);
}
dialog::addSelItem("matching items", its(isize(dialog::v)), 0);
dialog::display();
keyhandler = [] (int sym, int uni) {
dialog::handleNavigation(sym, uni);
if(dialog::editInfix(uni)) ;
else if(doexiton(sym, uni)) popScreen();
};
}
void showMenu() {
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if(staircase::on) { staircase::showMenu(); return; }
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cmode = sm::SIDE | sm::MAYDARK | sm::DIALOG_STRICT_X;
gamescreen(0);
dialog::init(XLAT("rogueviz configuration"));
dialog::addSelItem(XLAT("temperature"), fts(sag::temperature), 't');
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if(kind == kSAG)
dialog::addSelItem(XLAT("SAG mode"), sag::sagmodes[sag::sagmode], 'm');
dialog::addBoolItem(XLAT("show labels"), showlabels, 'l');
dialog::addBoolItem(XLAT("mark special vertices"), specialmark, 'x');
dialog::addSelItem(XLAT("background color"), itsh(backcolor), 'b');
if(isize(edgetypes))
dialog::addSelItem(XLAT("edge types"), its(isize(edgetypes)), 'g');
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dialog::addBoolItem(XLAT("vertices in 3D"), rog3, 'v');
dialog::addSelItem(XLAT("vertex shape"), its(vertex_shape), 'w');
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dialog::addItem(XLAT("vertex search"), '/');
dialog::add_action_push(showVertexSearch);
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if(kind == kKohonen)
kohonen::showMenu();
dialog::addBreak(50);
dialog::addBack();
dialog::display();
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keyhandler = [] (int sym, int uni) {
dialog::handleNavigation(sym, uni);
if(uni == 't')
dialog::editNumber(sag::temperature, sag::lowtemp, sag::hightemp, 1, 0, XLAT("temperature"), "");
else if(uni == 'm') {
sag::sagmode = sag::eSagmode( (1+sag::sagmode) % 3 );
}
else if(uni == 'l') showlabels = !showlabels;
else if(uni == 'v') rog3 = !rog3;
else if(uni == 'w') vertex_shape = (1 + vertex_shape) & 3;
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else if(uni == 'x') specialmark = !specialmark;
else if(uni == 'b') backcolor ^= 0xFFFFFF, bordcolor ^= 0xFFFFFF, forecolor ^= 0xFFFFFF;
else if(uni == 'g') pushScreen(configure_edge_display);
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else if(uni == 'z') {
for(int i=0; i<isize(named)-1; i++) if(named[i] == cwt.at)
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swap(named[i], named[i+1]);
if(!isize(named) || named[isize(named)-1] != cwt.at) named.push_back(cwt.at);
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printf("named = %d\n", isize(named));
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popScreen();
}
else if(kind == kKohonen && kohonen::handleMenu(sym, uni)) ;
else if(doexiton(sym, uni)) popScreen();
};
}
#if CAP_RVSLIDES
namespace rvtour {
using namespace tour;
string cname() {
if(euclid) return "coord-6.txt";
if(PURE) return "coord-7.txt";
return "coord-67.txt";
}
template<class T> function<void(presmode)> roguevizslide(char c, const T& t) {
return [c,t] (presmode mode) {
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patterns::canvasback = 0x101010;
setCanvas(mode, c);
if(mode == 1 || mode == pmGeometryStart) t();
if(mode == 3 || mode == pmGeometry || mode == pmGeometryReset) {
rogueviz::close();
shmup::clearMonsters();
if(mode == pmGeometryReset) t();
}
slidecommand = "toggle the player";
if(mode == 4)
mapeditor::drawplayer = !mapeditor::drawplayer;
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pd_from = NULL;
};
}
template<class T, class U>
function<void(presmode)> roguevizslide_action(char c, const T& t, const U& act) {
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return [c,t,act] (presmode mode) {
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patterns::canvasback = 0x101010;
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setCanvas(mode, c);
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if(mode == pmStart || mode == pmGeometryStart) t();
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act(mode);
if(mode == pmStop || mode == pmGeometry || mode == pmGeometryReset) {
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rogueviz::close();
shmup::clearMonsters();
if(mode == pmGeometryReset) t();
}
};
}
#define RVPATH HYPERPATH "rogueviz/"
slide rvslides[] = {
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{"RogueViz", 999, LEGAL_ANY,
"This is a presentation of RogueViz, which "
"is an adaptation of HyperRogue as a visualization tool "
"rather than a game. Hyperbolic space is great "
"for visualizing some kinds of data because of the vast amount "
"of space.\n\n"
"Press '5' to switch to the standard HyperRogue tutorial. "
"Press ESC to look at other functions of this presentation."
,
[] (presmode mode) {
slidecommand = "the standard presentation";
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if(mode == pmStartAll) firstland = specialland = laPalace;
if(mode == 4) {
tour::slides = default_slides;
while(tour::on) restart_game(rg::tour);
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firstland = specialland = laIce;
tour::start();
}
}
},
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{"straight lines in the Palace", 999, LEGAL_ANY,
"One simple slide about HyperRogue. Press '5' to show some hyperbolic straight lines.",
[] (presmode mode) {
using namespace linepatterns;
slidecommand = "toggle the Palace lines";
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if(mode == 4) patPalace.color = 0xFFD500FF;
if(mode == 3) patPalace.color = 0xFFD50000;
}
},
{"Collatz conjecture", 51, LEGAL_UNLIMITED | QUICKGEO,
"The following slide is a visualization of the Collatz conjecture. "
"Press '5' for a spiral rendering of the Collatz conjecture visualization.\n\n"
"Note that this, and many other RogueViz visualizations, have "
"Euclidean versions (press ESC).\n",
roguevizslide('d', [] () {
rogueviz::dftcolor = 0x206020FF;
int fac = euclid ? 2 : 1;
rogueviz::collatz::s2 = .3;
rogueviz::collatz::p2 = .5 * fac;
rogueviz::collatz::s3 = -.4;
rogueviz::collatz::p3 = .4 * fac;
rogueviz::showlabels = true;
rogueviz::on = true;
gmatrix.clear();
drawthemap();
gmatrix0 = gmatrix;
rogueviz::collatz::start();
})
},
{"Roguelikes", 63, LEGAL_UNLIMITED | QUICKGEO,
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"A visualization of roguelikes, based on discussion on /r/reddit. "
"See: http://www.roguetemple.com/z/hyper/reddit.php",
roguevizslide('0', [] () {
rogueviz::dftcolor = 0x282828FF;
rogueviz::showlabels = true;
part(rogueviz::default_edgetype.color, 0) = 181;
rogueviz::sag::edgepower = 1;
rogueviz::sag::edgemul = 1;
rogueviz::on = true;
gmatrix.clear();
drawthemap();
gmatrix0 = gmatrix;
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rogueviz::sag::read(RVPATH "roguelikes/edges.csv");
rogueviz::readcolor(RVPATH "roguelikes/color.csv");
rogueviz::sag::loadsnake(RVPATH "roguelikes/" + cname());
})
},
{"Programming languages of GitHub", 64, LEGAL_UNLIMITED | QUICKGEO,
"A visualization of programming languages.",
roguevizslide('0', [] () {
rogueviz::dftcolor = 0x282828FF;
rogueviz::showlabels = true;
part(rogueviz::default_edgetype.color, 0) = 128;
rogueviz::sag::edgepower = .4;
rogueviz::sag::edgemul = .02;
rogueviz::on = true;
gmatrix.clear();
drawthemap();
gmatrix0 = gmatrix;
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rogueviz::sag::read(RVPATH "lang/edges.csv");
rogueviz::readcolor(RVPATH "lang/color.csv");
rogueviz::sag::loadsnake(RVPATH "lang/" + cname());
if(euclid) rogueviz::legend.clear();
})
},
{"Boardgames", 62, LEGAL_UNLIMITED | QUICKGEO,
"A visualization of board games, based on discussions on Reddit.",
roguevizslide('0', [] () {
rogueviz::dftcolor = 0x282828FF;
rogueviz::showlabels = true;
part(rogueviz::default_edgetype.color, 0) = 157;
rogueviz::sag::edgepower = 1;
rogueviz::sag::edgemul = 1;
rogueviz::on = true;
gmatrix.clear();
drawthemap();
gmatrix0 = gmatrix;
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rogueviz::sag::read(RVPATH "boardgames/edges.csv");
rogueviz::readcolor(RVPATH "boardgames/color.csv");
rogueviz::sag::loadsnake(RVPATH "boardgames/" + cname());
})
},
{"Tree of Life", 61, LEGAL_UNLIMITED | QUICKGEO,
"Not described.",
roguevizslide('0', [] () {
rogueviz::dftcolor = 0x206020FF;
rogueviz::showlabels = true;
rogueviz::on = true;
gmatrix.clear();
drawthemap();
gmatrix0 = gmatrix;
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rogueviz::tree::read(RVPATH "treeoflife/tol.txt");
})},
{"Spiral Staircase", 62, LEGAL_NONE | QUICKGEO,
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"Spiral Staircase Demo. Press '5' to change the curvature or other parameters.",
[] (presmode mode) {
if(mode == 1) staircase::make_staircase();
if(mode == 3) rug::close();
slidecommand = "staircase menu";
if(mode == 4) pushScreen(staircase::showMenu);
}},
{"Banach-Tarski-like", 62, LEGAL_NONE,
"Banach-Tarski-like decomposition. Break a hyperbolic plane into two hyperbolic planes.\n\n"
"Press '5' to show the decomposition. Press any key to stop.\n\n"
"You will see a map of the decomposition. Press '5' again to return.",
[] (presmode mode) {
slidecommand = "staircase menu";
if(mode == 3) {
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while(gamestack::pushed()) stop_game(), gamestack::pop();
banachtarski::bmap = false;
banachtarski::on = false;
}
if(mode == 4) {
if(!banachtarski::on) {
bool b = mapeditor::drawplayer;
specialland = cwt.at->land;
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gamestack::push();
banachtarski::init_bantar();
airmap.clear();
dynamicval<int> vs(sightrange_bonus, 3);
dynamicval<int> vg(genrange_bonus, 3);
doOvergenerate();
banachtarski::bantar_anim();
quitmainloop = false;
mapeditor::drawplayer = b;
banachtarski::init_bantar_map();
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resetview();
}
else if(banachtarski::on && banachtarski::bmap) {
banachtarski::bmap = false;
banachtarski::on = false;
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gamestack::pop();
}
}
}},
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{"Pentagonal Exploration", 62, LEGAL_NONE | QUICKGEO,
"Pentagonal Exploration explained at: http://www.roguetemple.com/z/sims/snub/\n\n"
"Move the mouse nearer and further away from the X.\n\n"
"Press 3 4 5 6 7 8 9 shift+4 shift+5 shift+6 to change the geometry.",
[] (presmode mode) {
if(mode == 1) {
pentagonal::run_snub(5, 3);
}
if(mode == 3) {
printf("stopping\n");
set_geometry(gNormal);
set_variation(eVariation::bitruncated);
rug::close();
start_game();
}
}},
{"THE END", 99, LEGAL_ANY | FINALSLIDE,
"Press '5' to leave the presentation.",
[] (presmode mode) {
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firstland = specialland = laIce;
if(mode == 4) restart_game(rg::tour);
}
}
};
int rvtour_hooks =
addHook(hooks_slide, 100, [] (int mode) {
if(currentslide == 0 && slides == default_slides) {
slidecommand = "RogueViz presentation";
if(mode == 1)
help +=
"\n\nYour version of HyperRogue is compiled with RogueViz. "
"Press '5' to switch to the RogueViz slides. Watching the "
"common HyperRogue tutorial first is useful too, "
"as an introduction to hyperbolic geometry.";
if(mode == 4) {
slides = rogueviz::rvtour::rvslides;
while(tour::on) restart_game(rg::tour);
tour::start();
}
}
}) +
0;
}
#endif
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bool default_help() {
if(!rogueviz::on) return false;
help =
"This is RogueViz, a visualization engine based on HyperRogue.\n\nUse WASD to move, v for menu.\n\n"
"Read more about RogueViz on : http://roguetemple.com/z/hyper/rogueviz.php\n\n";
if(kind == kAnyGraph)
help += "Current visualization: any graph\n\n" + fname;
if(kind == kTree)
help += "Current visualization: tree\n\n" + fname;
if(kind == kSpiral)
help += "Current visualization: spiral\n\n";
if(kind == kSAG)
help += "Current visualization: SAG\n\n" + fname;
if(kind == kCollatz)
help += "Current visualization: Collatz conjecture\n\n";
if(kind == kFullNet)
help += "Current visualization: full net\n\n";
help_extensions.push_back(help_extension{'u', XLAT("RogueViz menu"), [] () { popScreen(); pushScreen(showMenu); }});
return true;
}
named_functionality o_key() {
if(rogueviz::on) return named_dialog(XLAT("rogueviz menu"), rogueviz::showMenu);
return named_functionality();
}
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auto hooks =
addHook(hooks_frame, 0, drawExtra) +
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#if CAP_COMMANDLINE
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addHook(hooks_args, 100, readArgs) +
#endif
#if CAP_RVSLIDES
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addHook(hooks_config, 0, [] () { tour::ss::list(rogueviz::rvtour::rvslides); }) +
#endif
addHook(clearmemory, 0, close) +
addHook(hooks_prestats, 100, rogueviz_hud) +
addHook(shmup::hooks_draw, 100, drawVertex) +
addHook(shmup::hooks_describe, 100, describe_monster) +
addHook(shmup::hooks_turn, 100, turn) +
addHook(shmup::hooks_kill, 100, activate) +
addHook(hooks_o_key, 100, o_key) +
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addHook(dialog::hooks_display_dialog, 100, [] () {
if(current_screen_cfunction() == showMainMenu) {
dialog::addItem(XLAT("rogueviz menu"), 'u');
dialog::add_action_push(rogueviz::showMenu);
}
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#if CAP_RVSLIDES
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if(current_screen_cfunction() == showStartMenu) {
dialog::addBreak(100);
dialog::addBigItem(XLAT("RogueViz"), 'r');
dialog::add_action([] () {
tour::slides = rogueviz::rvtour::rvslides;
popScreenAll();
tour::start();
printf("tour start\n");
});
dialog::addInfo(XLAT("see the visualizations"));
}
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#endif
}) +
addHook(hooks_welcome_message, 100, [] () {
if(rogueviz::on) addMessage(XLAT("Welcome to RogueViz!"));
return rogueviz::on;
}) +
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addHook(hooks_default_help, 100, default_help) +
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addHook(hooks_markers, 100, search_marker) +
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0;
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};
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#include "kohonen.cpp"
#include "staircase.cpp"
#include "banachtarski.cpp"
#include "video.cpp"
#include "pentagonal.cpp"
#include "functions.cpp"
#include "fundamental.cpp"
#include "sunflower.cpp"
#include "flocking.cpp"
#include "magiccube.cpp"
#include "cvl.cpp"
#include "newconf.cpp"
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#include "grigorchuk.cpp"
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#include "qtm.cpp"
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#include "rewriting.cpp"