mirror of
https://github.com/zenorogue/hyperrogue.git
synced 2024-11-30 15:39:54 +00:00
374 lines
11 KiB
C++
374 lines
11 KiB
C++
namespace hr {
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namespace ads_game {
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color_t shipcolor = 0x2020FFFF;
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cross_result findflat(shiftpoint h) {
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return cross0(current * rgpushxto0(h));
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}
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void apply_duality(shiftmatrix& S) {
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if(use_duality == 1) {
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S.T = unshift(S);
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S.shift = 0; // get_shift_cycles(S.shift);
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S.T = Duality * S.T * Duality;
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};
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if(use_duality == 2) {
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S = ads_matrix(Id, -90._deg) * S * ads_matrix(Id, +90._deg);
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S.T = spin(90._deg) * S.T;
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}
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}
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void draw_game_cell(const cell_to_draw& cd) {
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bool hv = mtwisted;
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using cellptr = cell*;
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const cellptr& c = cd.c;
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const ads_matrix& V = cd.V;
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vector<cross_result> hlist;
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hybrid::in_actual([&]{
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for(int i=0; i<=c->type; i++) {
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hyperpoint ha = hybrid::get_corner(c, i, 2, 0);
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hlist.push_back(findflat(V * ha));
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}
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});
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auto& ci = ci_at[c];
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if(ci.mpd_terrain > 0) {
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if(!gen_budget) return;
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gen_budget--;
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}
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PIU({
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gen_terrain(c, ci);
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gen_rocks(c, ci, 0);
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});
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auto& t = ci.type;
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if(hv) ;
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else if(t == wtGate) {
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ld minv = hlist[0].shift;
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ld maxv = hlist[0].shift;
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for(auto& h: hlist) {
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ld v = h.shift;
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if(v < minv) minv = v;
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if(v > maxv) maxv = v;
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}
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auto draw_slice = [&] (ld a, ld b, color_t col) {
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vector<hyperpoint> slice;
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for(int i=0; i<c->type; i++) {
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if(hlist[i].shift >= a && hlist[i].shift <= b)
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slice.push_back(hlist[i].h);
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if((hlist[i].shift < a) ^ (hlist[i+1].shift < a)) {
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ld p = ilerp(hlist[i].shift, hlist[i+1].shift, a);
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hyperpoint h1 = lerp(hlist[i].h, hlist[i+1].h, p);
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slice.push_back(h1);
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}
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if((hlist[i].shift > b) ^ (hlist[i+1].shift > b)) {
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ld p = ilerp(hlist[i].shift, hlist[i+1].shift, b);
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hyperpoint h1 = lerp(hlist[i].h, hlist[i+1].h, p);
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slice.push_back(h1);
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}
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if(hlist[i+1].shift < a && hlist[i].shift > b)
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swap((&slice.back())[-1], slice.back());
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}
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if(isize(slice) < 3) return;
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for(auto e: slice) curvepoint(e);
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curvepoint(slice[0]);
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queuecurve(shiftless(Id), 0xFFFFFFFF, col, PPR::WALL);
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};
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for(int v=floor(minv); v<maxv+1; v++) {
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draw_slice(v, v+1, (v & 3) ? 0x080828FF : 0xA04020FF);
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}
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}
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else {
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color_t col =
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t == wtSolid ? 0x603000FF :
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t == wtDestructible ? 0x301800FF :
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t == wtBarrier ? 0xC0C0C0FF :
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empty_color(c);
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color_t out = t == wtNone ? empty_outline(c) : 0xFF;
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for(auto h: hlist) curvepoint(h.h);
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addaura(shiftless(cd.center.h), col >> 8, 0);
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queuecurve(shiftless(Id), out, col, PPR::WALL);
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}
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if(view_proper_times) {
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string str = hr::format(tformat, cd.center.shift / ads_time_unit);
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queuestr(shiftless(rgpushxto0(cd.center.h)), time_scale * ads_scale, str, 0xFF4040, 8);
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}
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// need i-loop because new rocks can be created in handle_turret
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for(int i=0; i<isize(ci.rocks); i++) {
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auto& rock = *ci.rocks[i];
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if(!paused) {
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if(rock.type == oRock && expired(rock.expire, pdata)) { rock.resource = rtNone; rock.col = rock_color[rtNone]; rock.expire.score = 999999; }
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if(rock.type == oResource && expired(rock.expire, pdata)) { rock.resource = rtNone; rock.col = rsrc_color[rtNone]; rock.shape = rsrc_shape[rtNone]; rock.expire.score = 999999; }
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}
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ld ang = 0;
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ads_matrix M;
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hybrid::in_actual([&]{
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dynamicval<eGeometry> b(geometry, gTwistedProduct);
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M = V * rock.at;
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rock.pt_main = cross0(current * M);
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if(rock.type == oTurret) handle_turret(&rock, ang);
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if(ang) M = M * spin(ang);
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});
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if(rock.pt_main.shift < rock.life_start || rock.pt_main.shift > rock.life_end) continue;
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displayed.push_back(&rock);
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rock.pts.clear();
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auto& shape = *rock.shape;
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for(int i=0; i<isize(shape); i += 2) {
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hybrid::in_actual([&]{
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auto h = M * twist::uxpush(shape[i] * ads_scale) * twist::uypush(shape[i+1] * ads_scale);
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cross_result f = cross0(current * h);
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rock.pts.push_back(f);
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});
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}
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if(hv) {
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ld t = rock.life_start;
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if(t < -100) t = 0;
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ld shift = floor((rock.pt_main.shift - t) / spacetime_step) * spacetime_step + t;
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ads_point M = current * (V * rock.at) * ads_matrix(Id, shift) * C0;
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optimize_shift(M);
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for(int z0=-spacetime_qty; z0<=spacetime_qty; z0++) {
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ld z = z0 * spacetime_step;
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if((shift+z) < rock.life_start) continue;
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if((shift+z) > rock.life_end) continue;
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for(int i=0; i<isize(shape); i += 2) {
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auto h = twist::uxpush(shape[i] * ads_scale) * twist::uypush(shape[i+1] * ads_scale) * C0;
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curvepoint(h);
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}
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curvepoint_first();
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ads_matrix S = current * V * rock.at * ads_matrix(Id, rock.pt_main.shift+z);
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apply_duality(S);
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queuecurve(S, rock.col, 0, PPR::LINE);
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}
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}
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else {
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for(auto h: rock.pts) curvepoint(h.h);
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curvepoint(rock.pts[0].h);
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queuecurve(shiftless(Id),
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rock.type == oMissile ? missile_color :
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rock.type == oTurretMissile ? 0xFF8000FF :
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rock.type == oParticle ? rock.col :
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0x000000FF, rock.col, obj_prio[rock.type]);
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}
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if(view_proper_times && rock.type != oParticle) {
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string str = hr::format(tformat, rock.pt_main.shift / ads_time_unit);
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queuestr(shiftless(rgpushxto0(rock.pt_main.h)), time_scale * ads_scale, str, 0xFFFFFF, 8);
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}
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}
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/* todo: binary search */
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if(paused) for(auto& rock: ci.shipstates) {
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cross_result cr;
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if(hv) {
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auto& shape = shape_ship;
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for(int i=0; i<isize(shape); i += 2) {
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auto h = twist::uxpush(shape[i] * ads_scale) * twist::uypush(shape[i+1] * ads_scale) * C0;
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curvepoint(h);
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}
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curvepoint_first();
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ads_matrix S = current * V * rock.at;
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S = S * spin(-(rock.ang+90)*degree);
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apply_duality(S);
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S = S * spin(+(rock.ang+90)*degree);
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queuecurve(S, shipcolor, 0, PPR::LINE);
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continue;
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}
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hybrid::in_actual([&]{
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dynamicval<eGeometry> b(geometry, gTwistedProduct);
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auto h = V * rock.at;
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cr = cross0(current * h);
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});
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if(cr.shift < -1e-6 || cr.shift > rock.duration + 1e-6) continue;
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vector<hyperpoint> pts;
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auto& shape = shape_ship;
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for(int i=0; i<isize(shape); i += 2) {
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hybrid::in_actual([&]{
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auto h = V * rock.at * rgpushxto0(normalize(hyperpoint(shape[i] * ads_scale, shape[i+1] * ads_scale, 1, 0)));
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pts.push_back(cross0(current * h).h);
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});
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}
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for(auto h: pts) curvepoint(h);
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curvepoint(pts[0]);
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queuecurve(shiftless(Id), 0xFF, shipcolor, PPR::MONSTER_FOOT);
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if(view_proper_times) {
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string str = hr::format(tformat, (cr.shift + rock.start) / ads_time_unit);
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queuestr(shiftless(rgpushxto0(cr.h)), time_scale * ads_scale, str, 0xC0C0C0, 8);
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}
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}
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if(paused && c == vctr_ship && !game_over && !in_replay && !hv) {
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cross_result cr;
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hybrid::in_actual([&]{
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auto h = ads_inverse(current_ship * vctrV_ship);
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cr = cross0(current * V * h);
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// println(hlog, current * V * h);
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});
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if(cr.shift < M_PI && cr.shift < M_PI) {
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vector<hyperpoint> pts;
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for(int i=0; i<=360; i++) {
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hybrid::in_actual([&]{
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auto h = ads_inverse(current_ship * vctrV_ship) * spin(i*degree);
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auto cr = cross0_light(current * V * h);
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pts.push_back(cr.h);
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});
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}
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for(auto h: pts) curvepoint(h);
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queuecurve(shiftless(Id), 0xFF0000C0, cr.shift > 0 ? 0x00000060 : 0xFFFFFF10, PPR::SUPERLINE);
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}
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}
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}
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void view_footer() {
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if(inHighQual) return;
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string str = "Relative Hell ";
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str += VER_RH;
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if(main_rock) str += " dS";
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else str += " AdS";
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if(paused) str += " (paused)";
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if(!nofps) str += XLAT(" fps: ") + its(calcfps());
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str += " " + copyright_shown;
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queuestr(10, vid.yres-vid.fsize, 0, vid.fsize/2, str, 0x202020, 0, 0);
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}
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void view_ads_game() {
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displayed.clear();
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cds_last = std::move(cds); cds.clear();
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bool hv = mhybrid;
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hybrid::in_actual([&] {
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gen_budget = max_gen_per_frame;
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vctr = new_vctr;
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vctrV = new_vctrV;
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cross_result base;
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// todo rebase
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base = findflat(ads_point(C0, 0));
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// println(hlog, base.h);
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ld ebase = 0;
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hybrid::in_underlying_geometry([&]{
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ebase = hdist0(base.h);
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// println(hlog, "dist base pre = ", hdist0(base.h), " at ", base.shift);
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});
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// println(hlog, base.h[2]*base.h[2] - base.h[1]*base.h[1] - base.h[0] * base.h[0]);
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for(int u=0; u<30; u++) {
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auto bcurrent = current;
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transmatrix T = rgpushxto0( spin(TAU*u/30) * xpush0(0.5) );
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current.T = current.T * T;
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auto base1 = findflat(ads_point(C0, 0));
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ld ebase1 = 0;
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hybrid::in_underlying_geometry([&] {
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ebase1 = hdist0(base1.h);
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});
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if(ebase1 < ebase) { vctrV.T = inverse(T) * vctrV.T; }
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else { current = bcurrent; }
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}
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}
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);
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if(1) {
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set<cell*> visited;
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std::priority_queue<cell_to_draw> dq;
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auto visit = [&] (cell *c, const ads_matrix& V) {
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if(visited.count(c)) return;
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visited.insert(c);
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cell_to_draw cd;
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cd.c = c;
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cd.V = V;
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cd.center = findflat(V * C0);
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cd.d = hdist0(cd.center.h);
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if(cd.d < vctr_dist) vctr_dist = cd.d, new_vctr = c, new_vctrV = V;
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dq.emplace(cd);
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};
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hybrid::in_actual([&] {
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vctr_dist = HUGE_VAL;
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visit(vctr, vctrV);
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});
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int i = 0;
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ld lastd = -10;
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while(!dq.empty()) {
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i++;
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auto& cd = dq.top();
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if(i > draw_per_frame && cd.d > lastd + 1e-4) break;
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lastd = cd.d;
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cds[cd.c] = cd;
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draw_game_cell(cd);
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cell *c = cd.c;
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ads_matrix V = cd.V;
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dq.pop();
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hybrid::in_actual([&] {
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auto csl = hybrid::get_at(c, 0);
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for(int i=0; i<c->type; i++) {
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cell *csl2 = csl->cmove(i);
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auto V1 = V * currentmap->adj(csl, i);
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optimize_shift(V1);
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auto g = hybrid::get_where(csl2);
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adjust_to_zero(V1, g, cgi.plevel);
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visit(g.first, V1);
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}
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});
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}
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if(!game_over && !paused && !in_replay && !hv && !which_cross) {
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poly_outline = 0xFF;
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if(ship_pt < invincibility_pt) {
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ld u = (invincibility_pt-ship_pt) / ads_how_much_invincibility;
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poly_outline = gradient(shipcolor, rsrc_color[rtHull], 0, 0.5 + cos(5*u*TAU), 1);
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}
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queuepolyat(shiftless(spin(ang*degree) * Id), make_shape(), shipcolor, PPR::MONSTER_HAIR);
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poly_outline = 0xFF;
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if(view_proper_times) {
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string str = hr::format(tformat, ship_pt / ads_time_unit);
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queuestr(shiftless(Id), time_scale * ads_scale, str, 0xFFFFFF, 8);
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}
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}
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}
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copyright_shown = "";
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view_footer();
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}
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}}
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