mirror of
https://github.com/zenorogue/hyperrogue.git
synced 2024-11-30 15:39:54 +00:00
184 lines
5.9 KiB
C++
184 lines
5.9 KiB
C++
#include "hyper.h"
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namespace hr {
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#if HDR
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struct radarpoint {
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hyperpoint h;
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char glyph;
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color_t color;
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color_t line;
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};
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struct radarline {
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hyperpoint h1, h2;
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color_t line;
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};
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#endif
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EX vector<radarpoint> radarpoints;
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EX vector<radarline> radarlines;
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EX transmatrix radar_transform;
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pair<bool, hyperpoint> makeradar(hyperpoint h) {
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if(GDIM == 3 && WDIM == 2) h = radar_transform * h;
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ld d = hdist0(h);
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if(sol && nisot::geodesic_movement) {
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h = inverse_exp(h, iLazy);
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ld r = hypot_d(3, h);
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if(r < 1) h = h * (atanh(r) / r);
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else return {false, h};
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}
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if(prod) h = product::inverse_exp(h);
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if(nisot::local_perspective_used()) h = NLP * h;
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if(WDIM == 3) {
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if(d >= vid.radarrange) return {false, h};
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if(d) h = h * (d / vid.radarrange / hypot_d(3, h));
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}
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else if(hyperbolic) {
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for(int a=0; a<3; a++) h[a] = h[a] / (1 + h[3]);
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}
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else if(sphere) {
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h[2] = h[3];
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}
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else {
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if(d > vid.radarrange) return {false, h};
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if(d) h = h * (d / (vid.radarrange + cgi.scalefactor/4) / hypot_d(3, h));
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}
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if(invalid_point(h)) return {false, h};
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return {true, h};
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}
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EX void addradar(const transmatrix& V, char ch, color_t col, color_t outline) {
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hyperpoint h = tC0(V);
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auto hp = makeradar(h);
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if(hp.first)
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radarpoints.emplace_back(radarpoint{hp.second, ch, col, outline});
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}
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EX void addradar(const hyperpoint h1, const hyperpoint h2, color_t col) {
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auto hp1 = makeradar(h1);
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auto hp2 = makeradar(h2);
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if(hp1.first && hp2.first)
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radarlines.emplace_back(radarline{hp1.second, hp2.second, col});
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}
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void celldrawer::drawcell_in_radar() {
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#if CAP_SHMUP
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if(shmup::on) {
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pair<shmup::mit, shmup::mit> p =
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shmup::monstersAt.equal_range(c);
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for(shmup::mit it = p.first; it != p.second; it++) {
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shmup::monster* m = it->second;
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addradar(V*m->at, minf[m->type].glyph, minf[m->type].color, 0xFF0000FF);
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}
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}
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#endif
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if(c->monst)
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addradar(V, minf[c->monst].glyph, minf[c->monst].color, isFriendly(c->monst) ? 0x00FF00FF : 0xFF0000FF);
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else if(c->item && !itemHiddenFromSight(c))
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addradar(V, iinf[c->item].glyph, iinf[c->item].color, kind_outline(c->item));
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}
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void celldrawer::radar_grid() {
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for(int t=0; t<c->type; t++)
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if(c->move(t) && c->move(t) < c)
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addradar(V*get_corner_position(c, t%c->type), V*get_corner_position(c, (t+1)%c->type), gridcolor(c, c->move(t)));
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}
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EX void draw_radar(bool cornermode) {
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if(dual::split([] { dual::in_subscreen([] { calcparam(); draw_radar(false); }); })) return;
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bool d3 = WDIM == 3;
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bool hyp = hyperbolic;
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bool sph = sphere;
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bool scompass = nonisotropic && !hybri;
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dynamicval<eGeometry> g(geometry, gEuclid);
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dynamicval<eModel> pm(pmodel, mdDisk);
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dynamicval<bool> ga(vid.always3, false);
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dynamicval<geometryinfo1> gi(ginf[gEuclid].g, giEuclid2);
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initquickqueue();
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int rad = vid.radarsize;
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if(dual::state) rad /= 2;
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ld cx = dual::state ? (dual::currently_loaded ? vid.xres/2+rad+2 : vid.xres/2-rad-2) : cornermode ? rad+2 : vid.xres-rad-2;
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ld cy = vid.yres-rad-2 - vid.fsize;
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for(int i=0; i<360; i++)
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curvepoint(atscreenpos(cx-cos(i * degree)*rad, cy-sin(i*degree)*rad, 1) * C0);
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queuecurve(0xFFFFFFFF, 0x000000FF, PPR::ZERO);
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ld alpha = 15 * degree;
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ld co = cos(alpha);
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ld si = sin(alpha);
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if(sph && !d3) {
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for(int i=0; i<360; i++)
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curvepoint(atscreenpos(cx-cos(i * degree)*rad, cy-sin(i*degree)*rad*si, 1) * C0);
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queuecurve(0, 0x200000FF, PPR::ZERO);
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}
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if(d3) {
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for(int i=0; i<360; i++)
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curvepoint(atscreenpos(cx-cos(i * degree)*rad, cy-sin(i*degree)*rad*si, 1) * C0);
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queuecurve(0xFF0000FF, 0x200000FF, PPR::ZERO);
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curvepoint(atscreenpos(cx-sin(vid.fov*degree/2)*rad, cy-sin(vid.fov*degree/2)*rad*si, 1) * C0);
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curvepoint(atscreenpos(cx, cy, 1) * C0);
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curvepoint(atscreenpos(cx+sin(vid.fov*degree/2)*rad, cy-sin(vid.fov*degree/2)*rad*si, 1) * C0);
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queuecurve(0xFF8000FF, 0, PPR::ZERO);
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}
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if(d3) for(auto& r: radarpoints) {
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queueline(atscreenpos(cx+rad * r.h[0], cy - rad * r.h[2] * si + rad * r.h[1] * co, 0)*C0, atscreenpos(cx+rad*r.h[0], cy - rad*r.h[2] * si, 0)*C0, r.line, -1);
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}
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if(scompass) {
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auto compassdir = [&] (char dirname, hyperpoint h) {
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h = NLP * h * .8;
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queueline(atscreenpos(cx+rad * h[0], cy - rad * h[2] * si + rad * h[1] * co, 0)*C0, atscreenpos(cx+rad*h[0], cy - rad*h[2] * si, 0)*C0, 0xA0401040, -1);
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displaychr(int(cx+rad * h[0]), int(cy - rad * h[2] * si + rad * h[1] * co), 0, 8, dirname, 0xA04010);
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};
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compassdir('E', point3(+1, 0, 0));
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compassdir('N', point3(0, +1, 0));
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compassdir('W', point3(-1, 0, 0));
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compassdir('S', point3(0, -1, 0));
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compassdir('U', point3(0, 0,+1));
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compassdir('D', point3(0, 0,-1));
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}
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auto locate = [&] (hyperpoint h) {
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if(sph)
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return point3(cx + (rad-10) * h[0], cy + (rad-10) * h[2] * si + (rad-10) * h[1] * co, +h[1] * si > h[2] * co ? 8 : 16);
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else if(hyp)
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return point3(cx + rad * h[0], cy + rad * h[1], 1/(1+h[3]) * cgi.scalefactor * current_display->radius / (inHighQual ? 10 : 6));
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else
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return point3(cx + rad * h[0], cy + rad * h[1], rad * cgi.scalefactor / (vid.radarrange + cgi.scalefactor/4) * 0.8);
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};
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for(auto& r: radarlines) {
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hyperpoint h1 = locate(r.h1);
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hyperpoint h2 = locate(r.h2);
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h1 = tC0(atscreenpos(h1[0], h1[1], 1));
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h2 = tC0(atscreenpos(h2[0], h2[1], 1));
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queueline(h1, h2, r.line, -1);
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}
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quickqueue();
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glflush();
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for(auto& r: radarpoints) {
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if(d3) displaychr(int(cx + rad * r.h[0]), int(cy - rad * r.h[2] * si + rad * r.h[1] * co), 0, 8, r.glyph, r.color);
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else {
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hyperpoint h = locate(r.h);
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displaychr(int(h[0]), int(h[1]), 0, int(h[2]), r.glyph, r.color);
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}
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}
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}
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}
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