mirror of
https://github.com/zenorogue/hyperrogue.git
synced 2024-11-09 15:39:55 +00:00
62629f3e70
Since we require C++11, most of these consts can be constexpr. Two `static const ld` remain non-compile-time-evaluable because they depend on the runtime `log` function. One `static const cld` remains non-compile-time because `std::complex<T>` doesn't become constexpr until C++14.
313 lines
8.8 KiB
C++
313 lines
8.8 KiB
C++
#include "rogueviz.h"
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// Impossible Ring visualization
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// used in:
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// https://youtu.be/3WejR74o6II
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// https://youtu.be/ztodGQDK810
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// usage: -cylon
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namespace rogueviz {
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namespace cylon {
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ld cscale = .2;
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ld cylball;
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struct iring {
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geometry_information *icgi;
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static constexpr int frames = 32;
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static constexpr int cols = 256;
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static constexpr int steps = 2048;
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array<array<hpcshape, cols>, frames> ptriangle[2];
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vector<color_t> huess[2];
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vector<transmatrix> path;
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hpcshape ball;
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void init() {
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icgi = &cgi;
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unsigned difh = 256;
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int mh = 255;
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color_t base = 0xFF;
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auto& hues = huess[0];
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for(unsigned y=0; y<difh; y++)
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hues.push_back(base + 0x1000000*mh + 0x10000 * y);
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for(unsigned y=0; y<difh; y++)
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hues.push_back(base + 0x1010000*mh - 0x1000000 * y);
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for(unsigned y=0; y<difh; y++)
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hues.push_back(base + 0x0010000*mh + 0x100 * y);
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for(unsigned y=0; y<difh; y++)
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hues.push_back(base + 0x0010100*mh - 0x10000 * y);
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for(unsigned y=0; y<difh; y++)
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hues.push_back(base + 0x0000100*mh + 0x1000000 * y);
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for(unsigned y=0; y<difh; y++)
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hues.push_back(base + 0x1000100*mh - 0x100 * y);
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for(color_t h: hues) huess[1].push_back(((h & 0xFEFEFE00) >> 1) | 0xFF);
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ld delta = 0.004;
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transmatrix T = cspin(1, 2, 45._deg);
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int switchat = nil ? 1024 : 2048;
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auto step = [&] (int id) {
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ld alpha = id * 1. / steps * TAU;
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if(id < switchat)
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return T * point3(cos(alpha) * delta, sin(alpha) * delta, 0);
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else
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return T * point3(cos(alpha) * delta, 0, sin(alpha) * delta);
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};
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ld dmin = 0, dmax = 1;
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auto shift = [&] (ld d) {
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delta = d;
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hyperpoint start = C0;
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for(int a=0; a<steps; a++) {
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hyperpoint s = step(a);
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start = rgpushxto0(start) * (C0+s);
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}
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println(hlog, "start[", delta, "] = ", kz(start));
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return start[2];
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};
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println(hlog, shift(0.0001), shift(1));
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if(nil) for(int it=0; it<50; it++) {
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delta = (dmin + dmax) / 2;
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ld val = shift(delta);
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if(val > 0) dmax = delta;
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else dmin = delta;
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}
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println(hlog, "delta = ", delta);
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vector<array<hyperpoint, 4> > pipe;
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hyperpoint start = C0;
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path.resize(2 * steps);
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for(int a=0; a<steps; a++) {
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hyperpoint uds[3];
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ld alpha = a * 1. / steps * TAU;
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if(a < switchat) {
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uds[0] = T * point31(sin(alpha) * cscale, -cos(alpha) * cscale, 0) - C0;
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uds[1] = T * point31(0, 0, cscale) - C0;
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uds[2] = T * point31(-cos(alpha) * cscale, -sin(alpha) * cscale, 0) - C0;
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}
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else {
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uds[0] = T * point31(0, cscale, 0) - C0;
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uds[1] = T * point31(sin(alpha) * cscale, 0, -cos(alpha) * cscale) - C0;
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uds[2] = T * point31(-cos(alpha) * cscale, 0, -sin(alpha) * cscale) - C0;
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}
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// compute cube vertices
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array<hyperpoint, 4> verts;
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for(int a=0; a<4; a++) {
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verts[a] = C0;
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for(int k=0; k<2; k++)
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verts[a] += (a&(1<<k)) ? uds[k] : -uds[k];
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verts[a] = nisot::translate(start) * verts[a];
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}
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pipe.push_back(verts);
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path[a] = inverse(build_matrix(uds[0], uds[1], uds[2], C0)) * inverse(rgpushxto0(start));
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path[a+steps] = inverse(build_matrix(-uds[0], -uds[1], uds[2], C0)) * inverse(rgpushxto0(start));
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// println(hlog, "gs = ", gpushxto0(start));
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println(hlog, "start @ ", inverse(rgpushxto0(start)) * start);
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hyperpoint s = step(a);
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start = rgpushxto0(start) * (C0 + s);
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// * );
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}
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pipe.resize(steps + frames);
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for(int i=0; i<frames; i++)
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for(int j=0; j<4; j++)
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pipe[i+steps][j] = pipe[i][j^3];
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for(int fr=0; fr<frames; fr++)
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for(int sa=0; sa<2; sa++)
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for(int si=0; si<cols; si++) {
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auto textured_square = [&] (auto f) {
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texture_order([&] (ld ix, ld iy) { f(.5 + ix/2 + iy/2, .5 + ix/2 - iy/2); });
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texture_order([&] (ld ix, ld iy) { f(.5 - ix/2 - iy/2, .5 - ix/2 + iy/2); });
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texture_order([&] (ld ix, ld iy) { f(.5 + ix/2 - iy/2, .5 - ix/2 - iy/2); });
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texture_order([&] (ld ix, ld iy) { f(.5 - ix/2 + iy/2, .5 + ix/2 + iy/2); });
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};
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auto pipesquare = [&] (hyperpoint a00, hyperpoint a01, hyperpoint a10, hyperpoint a11) {
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textured_square( [&] (ld ix, ld iy) {
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hyperpoint shf = lerp(lerp(a00, a01, ix), lerp(a10, a11, ix), iy);
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// if(cscale) shf = shf * cscale - C0 * (cscale-1);
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cgi.hpcpush(shf);
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});
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};
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cgi.bshape(ptriangle[sa][fr][si], PPR::WALL);
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for(int i=fr; i<steps; i+=frames) {
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auto& pi = pipe[i];
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auto& pj = pipe[i+frames];
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int val = i * cols / steps / 2;
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if(si == val && sa == 0) pipesquare(pi[0], pi[2], pj[0], pj[2]);
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if(si == (val+cols/2)%cols && sa == 0) pipesquare(pi[1], pi[3], pj[1], pj[3]);
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if(si == (val+cols/4)%cols && sa == 1) pipesquare(pi[0], pi[1], pj[0], pj[1]);
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if(si == (val+cols*3/4)%cols && sa == 1) pipesquare(pi[2], pi[3], pj[2], pj[3]);
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}
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cgi.last->flags |= POLY_TRIANGLES;
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cgi.last->tinf = &floor_texture_vertices[0];
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cgi.last->texture_offset = 0;
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cgi.finishshape();
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cgi.extra_vertices();
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}
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if(cylball) {
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ball.prio = PPR::WALL;
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cgi.make_ball(ball, cylball, 2);
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cgi.finishshape();
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cgi.extra_vertices();
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}
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}
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};
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iring *ir;
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void reset() {
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if(ir) delete ir;
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ir = nullptr;
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}
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bool draw_ptriangle(cell *c, const shiftmatrix& V) {
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if(ir && ir->icgi != &cgi) reset();
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if(!ir) { ir = new iring; ir->init();
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// growthrate();
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}
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if(c == cwt.at) {
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int frid = (ticks % 1000) * ir->frames / 1000;
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for(int sa: {0, 1})
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for(int side=0; side<ir->cols; side++) {
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auto &s = queuepoly(V, ir->ptriangle[sa][frid][side], ir->huess[sa][256*6/ir->cols * side]);
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ensure_vertex_number(*s.tinf, s.cnt);
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/* auto& s1 = queuepoly(V * nisot::translate(td.at), ir->pcube[side], gradient(tcolors[td.tcolor], magiccolors[side], 0, .2, 1));
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ensure_vertex_number(*s1.tinf, s1.cnt); */
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}
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if(cylball) {
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long long isp = isize(ir->path);
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transmatrix T = ir->path[isp-1 - (ticks * isp / int(anims::period)) % isp];
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T = nisot::parallel_transport(inverse(T), -point3(0, cscale + cylball, 0));
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queuepoly(V * T, ir->ball, 0xFFFFFFFF);
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}
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}
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return false;
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}
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bool cylanim = false;
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void o_key(o_funcs& v) {
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v.push_back(named_functionality("ring size", [] {
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dialog::editNumber(cscale, 0, 1, .01, .1, "", "").reaction = reset;
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}));
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}
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void enable() {
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rogueviz::rv_hook(hooks_drawcell, 100, draw_ptriangle);
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rogueviz::rv_hook(anims::hooks_anim, 100, [] {
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if(!ir || !cylanim) return;
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centerover = currentmap->gamestart();
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long long isp = isize(ir->path);
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View = ir->path[isp-1 - (ticks * isp / int(anims::period)) % isp];
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shift_view(point3(0, 0.3, 0));
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anims::moved();
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});
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rogueviz::rv_hook(hooks_o_key, 80, o_key);
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}
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auto hchook =
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arg::add3("-cylon", enable)
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+ addHook(hooks_configfile, 100, [] {
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param_f(cscale, "cyls");
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param_b(cylanim, "cylanim");
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param_f(cylball, "cylball");
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})
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+ addHook_rvslides(167, [] (string s, vector<tour::slide>& v) {
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if(s != "noniso") return;
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using namespace tour;
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v.push_back(
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tour::slide{"Impossible architecture in Nil/impossible ring", 18, LEGAL::NONE | QUICKGEO,
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"Ring with a square cross-section. Cut it in half. Rotate one of the two halves by 90°, "
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"keeping one of the two ends connected to the other half. Do this in Nil geometry, so the other pair of ends remains connected too.\n\n"
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"Move with mouse/arrows/PgUpDn. Press '5' to enable animation, 'o' to change ring size.\n\n",
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[] (presmode mode) {
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slide_url(mode, 'y', "YouTube link", "https://youtu.be/3WejR74o6II");
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setCanvas(mode, '0');
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slidecommand = "animation";
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if(mode == pmKey) {
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tour::slide_backup(cylanim, !cylanim);
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}
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if(mode == pmStart) {
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stop_game();
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set_geometry(gNil);
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tour::slide_backup(mapeditor::drawplayer, false);
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tour::slide_backup(smooth_scrolling, true);
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tour::on_restore(nilv::set_flags);
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tour::slide_backup(nilv::nilperiod, make_array(3, 3, 3));
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nilv::set_flags();
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start_game();
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playermoved = false;
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enable();
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}
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}}
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);
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});
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}}
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