mirror of
https://github.com/zenorogue/hyperrogue.git
synced 2024-12-11 12:00:25 +00:00
230 lines
6.1 KiB
C++
230 lines
6.1 KiB
C++
namespace hr {
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namespace ads_game {
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vector<string> move_names = { "acc down", "acc left", "acc up", "acc right", "fire", "pause", "display times", "switch spin", "menu", "[paused] future", "(paused] past", "[paused] move switch" };
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void fire() {
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if(!pdata.ammo) return;
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playSound(nullptr, "fire");
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pdata.ammo--;
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auto c = vctr;
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ads_matrix S0 = ads_inverse(current * vctrV) * spin(ang*degree);
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ads_matrix S1 = S0 * lorentz(0, 2, ads_missile_rapidity);
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auto& ro = ci_at[c].rocks;
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auto r = std::make_unique<ads_object> (oMissile, c, S1, rsrc_color[rtAmmo]);
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r->shape = &shape_missile;
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r->life_start = 0;
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ads_matrix Scell(Id, 0);
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cell *lcell = hybrid::get_at(vctr, 0);
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auto wcell = make_pair(vctr, 0);
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int steps = 0;
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compute_life(lcell, unshift(r->at), [&] (cell *c1, ld t) {
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if(true) for(int i=0; i<lcell->type; i++) {
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auto lcell1 = lcell->cmove(i);
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auto wcell1 = hybrid::get_where(lcell1);
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if(wcell1.first == c1) {
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Scell = Scell * currentmap->adj(lcell, i);
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optimize_shift(Scell);
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lcell = lcell1;
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wcell = wcell1;
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adjust_to_zero(Scell, wcell, cgi.plevel);
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steps++;
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lcell = hybrid::get_at(wcell.first, 0);
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break;
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}
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}
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if(true) if(wcell.first != c1) {
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println(hlog, "warning: got lost after ", steps, " steps");
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println(hlog, wcell);
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println(hlog, c1);
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println(hlog, "their distance is ", PIU(celldistance(wcell.first, c1)));
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return true;
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}
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auto& ci = ci_at[c1];
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hybrid::in_underlying_geometry([&] {
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gen_terrain(c1, ci);
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});
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if(among(ci.type, wtSolid, wtDestructible)) {
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r->life_end = t;
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auto Scell_inv = ads_inverse(Scell);
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Scell_inv = Scell_inv * r->at;
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Scell_inv = Scell_inv * ads_matrix(Id, t);
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optimize_shift(Scell_inv);
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auto X = ads_inverse(Scell);
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X = X * (r->at * ads_matrix(Id, t));
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optimize_shift(X);
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ads_matrix prel = ads_inverse(S0) * r->at * ads_matrix(Id, t);
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println(hlog, "crashed: proper time = ", t/TAU, " wall time = ", Scell_inv.shift / TAU, " player time = ", (prel.shift+ship_pt) / TAU, " start = ", ship_pt / TAU);
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if(abs(X.shift - Scell_inv.shift) > .2) {
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println(hlog, "INTRANSITIVITY ERROR! ", X.shift, " vs ", Scell_inv.shift);
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exit(1);
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}
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return true;
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}
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return false;
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});
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ro.emplace_back(std::move(r));
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}
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bool handleKey(int sym, int uni) {
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if(cmode & sm::NORMAL) {
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char* t = multi::scfg.keyaction;
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if(t[sym] >= 16 && t[sym] < 32) return true;
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if(sym == 'v') pushScreen(game_menu);
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if(sym == SDLK_ESCAPE) pushScreen(game_menu);
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return true;
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}
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return false;
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}
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void apply_lorentz(transmatrix lor) {
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current = ads_matrix(lor, 0) * current;
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}
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ld read_movement() {
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ld mdx = multi::axespressed[4]/30000.;
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ld mdy = multi::axespressed[5]/30000.;
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#if CAP_VR
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if(vrhr::active()) {
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mdy -= vrhr::vrgo_y;
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mdx += vrhr::vrgo_x;
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}
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#endif
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if(mdx || mdy) {
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ang = atan2(mdy, mdx) / degree;
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return hypot(mdx, mdy);
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}
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auto& a = multi::actionspressed;
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bool left = a[16+1];
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bool right = a[16+3];
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bool up = a[16+2];
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bool down = a[16];
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int clicks = (left?1:0) + (right?1:0) + (up?1:0) + (down?1:0);
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if(left && right) left = right = false;
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if(up && down) up = down = false;
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if(left) ang = 180;
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if(right) ang = 0;
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if(up) ang = 90;
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if(down) ang = 270;
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if(left && up) ang = 135;
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if(left && down) ang = 225;
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if(right && up) ang = 45;
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if(right && down) ang = 315;
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ld mul = clicks ? 1 : 0;
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if(clicks > 2) mul *= .3;
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if(!paused) {
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if(game_over || pdata.fuel < 0) mul = 0;
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}
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return mul;
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}
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bool ads_turn(int idelta) {
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multi::handleInput(idelta);
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ld delta = idelta / 1000.;
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if(!(cmode & sm::NORMAL)) return false;
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hybrid::in_actual([&] {
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handle_crashes();
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auto& a = multi::actionspressed;
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auto& la = multi::lactionpressed;
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if(a[16+4] && !la[16+4] && !paused) fire();
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if(a[16+5] && !la[16+5]) switch_pause();
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if(a[16+6] && !la[16+6]) view_proper_times = !view_proper_times;
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if(a[16+7] && !la[16+7]) auto_rotate = !auto_rotate;
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if(a[16+8] && !la[16+8]) pushScreen(game_menu);
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if(auto_angle) pconf.model_orientation += ang;
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if(true) {
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/* proper time passed */
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ld pt = delta * ads_simspeed;
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ld mul = read_movement();
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ld dv = pt * ads_accel * mul;
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if(paused && a[16+11]) {
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current = ads_matrix(spin(ang*degree) * xpush(mul*delta*-pause_speed) * spin(-ang*degree), 0) * current;
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}
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else
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apply_lorentz(spin(ang*degree) * lorentz(0, 2, -dv) * spin(-ang*degree));
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if(!paused) {
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pdata.fuel -= dv;
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gen_particles(rpoisson(dv*fuel_particle_qty), vctr, ads_inverse(current * vctrV) * spin(ang*degree+M_PI) * rots::uxpush(0.06 * ads_scale), rsrc_color[rtFuel], fuel_particle_rapidity, fuel_particle_life, 0.02);
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}
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ld tc = 0;
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if(!paused) tc = pt;
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else if(a[16+9]) tc = pt;
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else if(a[16+10]) tc = -pt;
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if(!paused && !game_over) {
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shipstate ss;
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ss.at = ads_inverse(current * vctrV) * spin((ang+90)*degree);
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ss.ang = ang;
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ss.current = current;
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ss.start = ship_pt;
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ss.duration = pt;
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ss.vctrV = vctrV;
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ss.vctr = vctr;
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history.emplace_back(ss);
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ci_at[vctr].shipstates.emplace_back(ss);
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}
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current.T = cspin(3, 2, tc) * current.T;
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optimize_shift(current);
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hassert(eqmatrix(chg_shift(current.shift) * current.T, unshift(current)));
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if(auto_rotate)
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current.T = cspin(1, 0, tc) * current.T;
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else if(!paused)
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ang += tc / degree;
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if(!paused) {
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ship_pt += pt;
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pdata.oxygen -= pt;
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if(pdata.oxygen < 0) {
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pdata.oxygen = 0;
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game_over = true;
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}
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}
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else view_pt += tc;
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}
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if(auto_angle) pconf.model_orientation -= ang;
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fixmatrix_ads(current.T);
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fixmatrix_ads(new_vctrV.T);
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});
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return true;
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}
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}}
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