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hyperrogue/rogueviz/tree.cpp

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#include "../hyper.h"
#include "rogueviz.h"
// hyper -tol <filename.xml> -- visualize the tree of life,
// based on a XML dump from https://tree.opentreeoflife.org/
namespace rogueviz {
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) {
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;
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;
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init(RV_GRAPH | RV_COMPRESS_LABELS | RV_COLOR_TREE);
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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);
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);
}
for(int i=0; i<isize(vdata); i++) {
vertexdata& vd = vdata[i];
virtualRebase(vd.m);
}
printf("Clearing the TOL data...\n");
tol.clear();
storeall();
}
int ah = arg::add3("-tree", [] { tree::read(arg::shift_args()); })
+ addHook_rvslides(120, [] (string s, vector<tour::slide>& v) {
if(s != "data") return;
using namespace pres;
v.push_back(
tour::slide{"Tree of Life", 61, LEGAL::UNLIMITED | QUICKGEO,
"Hyperbolic geometry is much better than the Euclidean geometry at visualizing large trees and other hierarchical structures. "
"Here we visualize the data from the Tree of Life project.",
roguevizslide('0', [] () {
rogueviz::dftcolor = 0x206020FF;
rogueviz::showlabels = true;
gmatrix.clear();
drawthemap();
gmatrix0 = gmatrix;
rogueviz::tree::read(RVPATH "treeoflife/tol.txt");
})}
);
});
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}
}