// HyperRogue // Copyright (C) 2011-2019 Zeno Rogue, see 'hyper.cpp' for details /** \file 3d-models.cpp * \brief This file contains the routines to convert HyperRogue's old vector graphics into 3D models */ #include "hyper.h" #include "earcut.hpp" namespace hr { ld eyepos; #if MAXMDIM >= 4 #define S (cgi.scalefactor / 0.805578) #define SH (cgi.scalefactor / 0.805578 * vid.height_width / 1.5) #define revZ ((WDIM == 2 || prod) ? -1 : 1) hyperpoint shcenter; EX hyperpoint front_leg, rear_leg; EX transmatrix front_leg_move, rear_leg_move, front_leg_move_inverse, rear_leg_move_inverse; EX ld leg_length; vector geometry_information::get_shape(hpcshape sh) { vector res; for(int i=sh.s; i& vh) { hyperpoint h = Hypc; for(auto h1: vh) h = h + h1; return normalize_flat(h); } EX ld zc(ld z) { if(WDIM == 2 && GDIM == 3) return geom3::lev_to_factor(cgi.human_height * z); return cgi.human_height * (z - 0.5) * revZ; } void geometry_information::add_cone(ld z0, const vector& vh, ld z1) { last->flags |= POLY_TRIANGLES; for(int i=0; i vh0, ld z1, vector vh1) { last->flags |= POLY_TRIANGLES; for(int i=0; i vh0, ld z1, vector vh1) { last->flags |= POLY_TRIANGLES; struct mixed { ld angle; int owner; hyperpoint h; mixed(ld a, int o, hyperpoint _h) : angle(a), owner(o), h(_h) {} }; transmatrix T0 = gpushxto0(get_center(vh0)); transmatrix T1 = gpushxto0(get_center(vh1)); vector pairs; for(auto h: vh0) pairs.emplace_back(atan2(T0*h), 0, h); for(auto h: vh1) pairs.emplace_back(atan2(T1*h), 1, h); sort(pairs.begin(), pairs.end(), [&] (const mixed p, const mixed q) { return p.angle < q.angle; }); hyperpoint lasts[2]; for(auto pp: pairs) lasts[pp.owner] = pp.h; for(auto pp: pairs) { int id = pp.owner; hpcpush(zpush(z0) * lasts[0]); hpcpush(zpush(z1) * lasts[1]); hpcpush(zpush(id == 0 ? z0 : z1) * pp.h); lasts[id] = pp.h; } } void geometry_information::shift_last(ld z) { for(int i=last->s; i scaleshape(const vector& vh, ld s) { vector res; for(hyperpoint h: vh) res.push_back(normalize_flat(h * s + shcenter * (1-s))); return res; } ld get_zlevel(hyperpoint h) { if(prod) return zlevel(h); if(sl2) return atan2(h[2], h[3]); return asin_auto(h[2]); } void geometry_information::make_ha_3d(hpcshape& sh, bool isarmor, ld scale) { shcenter = C0; auto groin = get_shape(shHumanGroin); auto body = get_shape(shPBodyOnly); auto neck = get_shape(shHumanNeck); auto hand = get_shape(shPBodyHand); auto arm = get_shape(shPBodyArm); groin = scaleshape(groin, scale); neck = scaleshape(neck, scale); auto fullbody = get_shape(sh); auto body7 = body[7]; auto body26 = body[26]; body.clear(); bool foundplus = false, foundminus = false; for(hyperpoint h: fullbody) { if(h[1] > 0.14 * S) { if(foundplus) ; else foundplus = true, body.push_back(body7); } else if(h[1] < -0.14 * S) { if(foundminus) ; else foundminus = true, body.push_back(body26); } else body.push_back(h); } auto arm8 = arm[8]; bool armused = false; arm.clear(); for(hyperpoint h: fullbody) { if(h[1] < 0.08 * S) ; else if(h[0] > -0.03 * S) { if(armused) ; else armused = true, arm.push_back(arm8); } else arm.push_back(h); } auto hand0 = hand[0]; hand.clear(); hand.push_back(hand0); for(hyperpoint h: fullbody) { if(h[1] + h[0] > 0.13 * S) hand.push_back(h); } bshape(sh, PPR::MONSTER_BODY); add_cone(zc(0.4), groin, zc(0.36)); add_prism_sync(zc(0.4), groin, zc(0.6), groin); add_prism(zc(0.6), groin, zc(0.7), body); add_prism(zc(0.7), body, zc(0.8), neck); add_cone(zc(0.8), neck, zc(0.83)); int at0 = isize(hpc); ld h = human_height; if(isize(arm) > 3) { shcenter = get_center(arm); int arm0 = isize(hpc); add_prism_sync(BODY - h*.03, arm, BODY + h*.03, arm); add_cone(BODY + h*.03, arm, BODY + h*.05); add_cone(BODY - h*.03, arm, BODY - h*.05); int arm1 = isize(hpc); for(int i=arm0; i 3) { shcenter = get_center(hand); add_cone(BODY, hand, BODY + 0.05 * human_height); add_cone(BODY, hand, BODY - 0.05 * human_height); } int at1 = isize(hpc); for(int i=at0; i hs, int kind) { ld ds[3]; ds[0] = hdist(hs[0], hs[1]); ds[1] = hdist(hs[1], hs[2]); ds[2] = hdist(hs[2], hs[0]); ld maxds = 0; for(int i=0; i<3; i++) maxds = max(ds[i], maxds) - 1e-3; if(maxds > 0.02*S) for(int i=0; i<3; i++) { int j = (i+1) % 3; int k = (j+1) % 3; if(hdist(hs[i], hs[j]) > maxds) { auto hm = mid(hs[i], hs[j]); addtri(make_array(hm, hs[i], hs[k]), kind); addtri(make_array(hm, hs[j], hs[k]), kind); return; } } if(kind) { array ht; ld hsh[3]; ld shi[3]; bool ok = true; ld zzes[3]; for(int s=0; s<3; s++) { hs[s] = normalize_flat(hs[s]); hyperpoint h = hs[s]; ld zz = zc(0.78); hsh[s] = abs(h[1]); zz -= h[1] * h[1] / 0.14 / 0.14 * 0.01 / S / S * SH; zz -= h[0] * h[0] / 0.10 / 0.10 * 0.01 / S / S * SH; if(abs(h[1]) > 0.14*S) ok = false, zz -= revZ * (abs(h[1])/S - 0.14) * SH; if(abs(h[0]) > 0.08*S) ok = false, zz -= revZ * (abs(h[0])/S - 0.08) * (abs(h[0])/S - 0.08) * 25 * SH; h = normalize_flat(h); if(!prod || kind != 1) ht[s] = zpush(zz) * h; else ht[s] = h; if(hsh[s] < 0.1*S) shi[s] = 0.5; else if(hsh[s] < 0.12*S) shi[s] = 0.1 + 0.4 * (hsh[s]/S - 0.1) / (0.12 - 0.1); else shi[s] = 0.1; zzes[s] = zz; } if(ok && kind == 1) { array, 6> htx; for(int i=0; i<6; i++) htx[i] = ht; for(int i=0; i<3; i++) { htx[0][i][0] *= 0.7; htx[0][i][1] *= 0.7; htx[1][i][0] *= 1.2; htx[1][i][1] *= 1.7; htx[2][i][1] *= 1.7; htx[4][i][0] = htx[4][i][0] * 0.4 + scalefactor * 0.1; htx[5][i][0] = htx[5][i][0] * 0.3 + scalefactor * 0.1; if(!prod) for(int a=0; a<6; a++) htx[a][i] = hpxy3(htx[a][i][0], htx[a][i][1], htx[a][i][2]); else for(int a=0; a<6; a++) htx[a][i] = zpush(zzes[i]) * hpxy(htx[a][i][0], htx[a][i][1]); } ld levels[6] = {0, 0.125, 0.125, 0.250, 0.375, 0.5}; for(int a=0; a<6; a++) for(int i=0; i<3; i++) htx[a][i] = zpush(-min(shi[i], levels[a]) * human_height * revZ) * htx[a][i]; hpcpush(htx[0][0]); hpcpush(htx[0][1]); hpcpush(htx[0][2]); for(int a=0; a<5; a++) for(int i=0; i<3; i++) { int j = (i+1) % 3; int b = a+1; hpcpush(htx[a][i]); hpcpush(htx[a][j]); hpcpush(htx[b][i]); hpcpush(htx[a][j]); hpcpush(htx[b][i]); hpcpush(htx[b][j]); } } else hpcpush(ht[0]), hpcpush(ht[1]), hpcpush(ht[2]); } else { for(int s=0; s<3; s++) { hyperpoint h = hs[s]; ld zz = zc(eyepos); if(h[0] < -0.05*S) zz += revZ * (h[0]/S + 0.05) * SH; if(hdist0(h) <= 0.0501*S) { zz += revZ * sqrt(0.0026 - pow(hdist0(h)/S, 2)) * SH; } hpcpush(zpush(zz) * h); } } } void disable(hpcshape& sh) { sh.s = sh.e = 0; } void geometry_information::make_armor_3d(hpcshape& sh, int kind) { if(BADMODEL) { disable(sh); return; } auto body = get_shape(sh); vector >> pts(2); for(hyperpoint h: body) { array p; p[0] = h[0] / h[LDIM]; p[1] = h[1] / h[LDIM]; pts[0].emplace_back(p); } bshape(sh, sh.prio); vector indices = mapbox::earcut (pts); last->flags |= POLY_TRIANGLES; last->flags |= POLY_TRIANGLES; for(int k=0; ks; iflags |= POLY_TRIANGLES; for(int d=0; d<360; d+=(BADMODEL ? 60 : 30)) for(int u=-90; u<=90; u+=(BADMODEL ? 90 : 30)) { addpt(d, u); addpt(d+30, u); addpt(d, u+30); addpt(d+30, u+30); addpt(d+30, u); addpt(d, u+30); } add_texture(shPHeadOnly); shift_last(-HEAD - revZ * 0.01 * SH); } void geometry_information::make_head_3d(hpcshape& sh) { auto head = get_shape(sh); vector >> pts(2); for(hyperpoint h: head) { array p; p[0] = h[0] / h[LDIM]; p[1] = h[1] / h[LDIM]; pts[0].emplace_back(p); } array zero = make_array(0,0); pts[1].emplace_back(zero); head.push_back(C0); bshape(sh, sh.prio); vector indices = mapbox::earcut (pts); last->flags |= POLY_TRIANGLES; for(int k=0; k notail; ld minx = 9; for(hyperpoint h: body) minx = min(minx, h[0]); for(hyperpoint h: body) if(h[0] >= minx + tail) notail.push_back(h); auto body8 = scaleshape(notail, 0.8); bshape(sh, PPR::MONSTER_BODY); add_prism(zc(0.4), body8, zc(0.45), body); add_prism(zc(0.45), body, zc(0.5), notail); add_prism_sync(zc(0.6), body8, zc(0.5), notail); add_cone(zc(0.4), body8, zc(0.36)); add_cone(zc(0.6), body8, zc(0.64)); add_texture(sh); if(GDIM == 3 && WDIM == 2) shift_last(-ABODY); } void geometry_information::make_ahead_3d(hpcshape& sh) { auto body = get_shape(sh); shcenter = get_center(body); auto body8 = scaleshape(body, 0.5); bshape(sh, PPR::MONSTER_BODY); add_prism_sync(zc(0.4), body8, zc(0.5), body); add_prism_sync(zc(0.6), body8, zc(0.5), body); add_cone(zc(0.4), body8, zc(0.36)); add_cone(zc(0.6), body8, zc(0.64)); add_texture(sh); } void geometry_information::make_skeletal(hpcshape& sh, ld push) { auto body = get_shape(sh); shcenter = get_center(body); bshape(sh, PPR::MONSTER_BODY); add_prism_sync(zc(0.48), body, zc(0.5), body); add_prism_sync(zc(0.52), body, zc(0.5), body); add_cone(zc(0.48), body, zc(0.47)); add_cone(zc(0.52), body, zc(0.53)); add_texture(sh); shift_last(-push); } hyperpoint yzspin(ld alpha, hyperpoint h) { if(prod) return product::direct_exp(cspin(1, 2, alpha) * product::inverse_exp(h)); else return cspin(1, 2, alpha) * h; } void geometry_information::make_revolution(hpcshape& sh, int mx, ld push) { auto body = get_shape(sh); bshape(sh, PPR::MONSTER_BODY); int step = (BADMODEL ? 60 : (mx == 360 ? 24 : 10)); for(int i=0; iflags |= POLY_TRIANGLES; add_texture(sh); shift_last(-push); } void geometry_information::make_revolution_cut(hpcshape &sh, int each, ld push, ld width) { auto body = get_shape(sh); body.resize(isize(body) / 2); ld fx = body[0][0]; ld lx = body.back()[0]; body.insert(body.begin(), hpxy(fx + (fx-lx) * 1e-3, 0)); body.push_back(hpxy(lx + (lx-fx) * 1e-3, 0)); int n = isize(body); auto gbody = body; int it = 0; vector nextid(n); vector lastid(n); vector stillin(n, true); for(int i=0; i gbody[lastid[i]][0] && gbody[i][0] > gbody[nextid[i]][0]) || abs(gbody[i][1]) > width) if(abs(gbody[i][1]) > cv) cand = i, cv = abs(gbody[i][1]); } if(cand == -1) break; int i = cand; lastid[nextid[i]] = lastid[i]; nextid[lastid[i]] = nextid[i]; stillin[i] = false; } for(int i=n-1; i>=0; i--) if(!stillin[i] && !stillin[nextid[i]]) nextid[i] = nextid[nextid[i]]; for(int i=0; iflags |= POLY_TRIANGLES; add_texture(sh); shift_last(-push); if(&sh == &shDogTorso) { finishshape(); shDogStripes = shDogTorso; add_texture(shDogStripes); auto& utt = models_texture; if(utt.tvertices.empty()) return; int a = (6 * 360 / step); for(int i=0; i body) { ld off = hpc[i][1] > 0 ? body : -body; hpc[i][2] += abs(hpc[i][1] - off) * sin(alpha); hpc[i][1] = off + (hpc[i][1] - off) * cos(alpha); hpc[i] = normalize(hpc[i]); } } } // for(int i=0; i<30; i++) shift_shape(animated[i], BIRD); // shift_shape(orig, BIRD); } void geometry_information::slimetriangle(hyperpoint a, hyperpoint b, hyperpoint c, ld rad, int lev) { dynamicval d(vid.texture_step, 8); texture_order([&] (ld x, ld y) { ld z = 1-x-y; ld r = scalefactor * hcrossf7 * (0 + pow(max(x,max(y,z)), .3) * 0.8) * (hybri ? .5 : 1); hyperpoint h = direct_exp(tangent_length(a*x+b*y+c*z, r)); hpcpush(h); }); } void geometry_information::balltriangle(hyperpoint a, hyperpoint b, hyperpoint c, ld rad, int lev) { if(lev == 0) { hpcpush(direct_exp(a)); hpcpush(direct_exp(b)); hpcpush(direct_exp(c)); } else { auto midpoint = [&] (hyperpoint h1, hyperpoint h2) { return tangent_length(h1+h2, rad); }; hyperpoint cx = midpoint(a, b); hyperpoint ax = midpoint(b, c); hyperpoint bx = midpoint(c, a); balltriangle(ax, bx, cx, rad, lev-1); balltriangle(ax, bx, c , rad, lev-1); balltriangle(ax, b , cx, rad, lev-1); balltriangle(a , bx, cx, rad, lev-1); } } void geometry_information::make_ball(hpcshape& sh, ld rad, int lev) { bshape(sh, sh.prio); sh.flags |= POLY_TRIANGLES; hyperpoint tip = xtangent(rad); hyperpoint atip = xtangent(-rad); ld z = 63.43 * degree; for(int i=0; i<5; i++) { hyperpoint a = cspin(1, 2, (72 * i ) * degree) * spin(z) * tip; hyperpoint b = cspin(1, 2, (72 * i-72) * degree) * spin(z) * tip; hyperpoint c = cspin(1, 2, (72 * i+36) * degree) * spin(M_PI-z) * tip; hyperpoint d = cspin(1, 2, (72 * i-36) * degree) * spin(M_PI-z) * tip; balltriangle(tip, a, b, rad, lev); balltriangle(a, b, c, rad, lev); balltriangle(b, c, d, rad, lev); balltriangle(c, d, atip, rad, lev); } add_texture(sh); } void geometry_information::hpcsquare(hyperpoint h1, hyperpoint h2, hyperpoint h3, hyperpoint h4) { last->flags |= POLY_TRIANGLES; hpcpush(h1); hpcpush(h2); hpcpush(h3); hpcpush(h2); hpcpush(h3); hpcpush(h4); } void geometry_information::make_star(hpcshape& sh, ld rad) { bshape(sh, sh.prio); rad = sinh(rad); sh.flags |= POLY_TRIANGLES | POLY_INTENSE; int steps = (BADMODEL ? 8 : 64); for(int a=0; a 0) center += hpc[i]; center = normalize_flat(center); // center /= (eye.e - eye.s); ld rad = 0; for(int i=eye.s; i 0) rad += hdist(center, hpc[i]); rad /= (eye.e - eye.s); hyperpoint pscenter = psmin(center); ld pos = 0; int qty = 0, qtyall = 0; vector pss; for(int i=head.s; is; irenderedTexture; } #endif if(WDIM == 2 || euclid) { DEBB(DF_POLY, ("shadows")); for(hpcshape* sh: {&shBatWings, &shBugBody, &shBullBody, &shButterflyWing, &shCatBody, &shDogBody, &shDogTorso, &shEagle, &shFemaleBody, &shFlailMissile, &shGadflyWing, &shGargoyleWings, &shHawk, &shJiangShi, &shKnife, &shPBody, &shPHead, &shRaiderBody, &shReptileBody, &shSkeletonBody, &shTongue, &shTrapArrow, &shTrylobite, &shWaterElemental, &shWolfBody, &shYeti, &shWormHead, &shWormHead, &shDragonHead, &shDragonSegment, &shDragonTail, &shTentacleX, &shTentHead, &shILeaf[0], &shILeaf[1], &shWormSegment, &shSmallWormSegment, &shFrogBody }) make_shadow(*sh); for(int i=0; i<8; i++) make_shadow(shAsteroid[i]); } DEBB(DF_POLY, ("humanoids")); make_humanoid_3d(shPBody); make_humanoid_3d(shYeti); make_humanoid_3d(shFemaleBody); make_humanoid_3d(shRaiderBody); make_humanoid_3d(shSkeletonBody); make_humanoid_3d(shFatBody); make_humanoid_3d(shWaterElemental); make_humanoid_3d(shJiangShi); // shFatBody = shPBody; // shFemaleBody = shPBody; // shRaiderBody = shPBody; // shJiangShi = shPBody; DEBB(DF_POLY, ("heads")); make_head_3d(shFemaleHair); make_head_3d(shPHead); make_head_3d(shTurban1); make_head_3d(shTurban2); make_head_3d(shAztecHead); make_head_3d(shAztecCap); make_head_3d(shVikingHelmet); make_head_3d(shRaiderHelmet); make_head_3d(shWestHat1); make_head_3d(shWestHat2); make_head_3d(shWitchHair); make_head_3d(shBeautyHair); make_head_3d(shFlowerHair); make_head_3d(shGolemhead); make_head_3d(shPirateHood); make_head_3d(shEyepatch); make_head_3d(shSkull); make_head_3d(shDemon); make_head_3d(shGoatHead); make_head_3d(shJiangShiCap1); make_head_3d(shJiangShiCap2); make_head_3d(shTerraHead); DEBB(DF_POLY, ("armors")); make_armor_3d(shKnightArmor); make_armor_3d(shKnightCloak, 2); make_armor_3d(shPrinceDress); make_armor_3d(shPrincessDress, 2); make_armor_3d(shTerraArmor1); make_armor_3d(shTerraArmor2); make_armor_3d(shTerraArmor3); make_armor_3d(shSuspenders); make_armor_3d(shJiangShiDress); make_armor_3d(shFemaleDress); make_armor_3d(shWightCloak, 2); make_armor_3d(shRaiderArmor); make_armor_3d(shRaiderShirt); make_armor_3d(shArmor); make_armor_3d(shRatCape2, 2); make_armor_3d(shHood, 2); DEBB(DF_POLY, ("feet and paws")); make_foot_3d(shHumanFoot); make_foot_3d(shYetiFoot); make_skeletal(shSkeletalFoot, WDIM == 2 ? zc(0.5) + human_height/40 - FLOOR : 0); hyperpoint front_leg = Hypc; hyperpoint rear_leg = Hypc; for(int i=shDogFrontPaw.s; iflags |= POLY_TRIANGLES; add_texture(*last); if(WDIM == 2) shift_last_straight(FLOOR); finishshape(); shJelly = shSlime; shift_shape(shMagicSword, ABODY); shift_shape(shMagicShovel, ABODY); DEBB(DF_POLY, ("eyes")); adjust_eye(shSlimeEyes, shSlime, FLATEYE, 0, 2, 2); adjust_eye(shGhostEyes, shGhost, GHOST, GHOST, 2, WDIM == 2 ? 2 : 4); adjust_eye(shMiniEyes, shMiniGhost, GHOST, GHOST, 2, 2); adjust_eye(shWormEyes, shWormHead, 0, 0, 2, 4); adjust_eye(shDragonEyes, shDragonHead, 0, 0, 2, 4); adjust_eye(shKrakenEye, shKrakenHead, 0, 0, 1); adjust_eye(shKrakenEye2, shKrakenEye, 0, 0, 1, 2); shRatEye1 = shWolf1; shRatEye2 = shWolf2; shRatEye3 = shWolf3; adjust_eye(shWolf1, shDogHead, AHEAD, AHEAD, 1); adjust_eye(shWolf2, shDogHead, AHEAD, AHEAD, 1); for(int i=0; i sh = make_array(&shBigCarpet1, &shBigCarpet2, &shBigCarpet3); bshape(*sh[i], PPR::GFLOORa); for(int t=0; t dv(vid.texture_step, 16); texture_order([&] (ld x, ld y) { ld z = 1-x-y; ld rad = 2.1 - i * 0.2; hyperpoint hx = ddi(t*12, -zhexf*rad) * C0; hyperpoint hy = ddi(t*12+12, -zhexf*rad) * C0; hyperpoint hz = C0; hyperpoint h = hx * x + hy * y + hz * z; h = mid(h, h); h = orthogonal_move(h, FLOOR - human_height * (i+2.5) / 100 * (x+y+1)/2); hpcpush(h); }); } sh[i]->flags |= POLY_TRIANGLES; } finishshape(); } hpcshape& geometry_information::generate_pipe(ld length, ld width, ePipeEnd endtype) { int id = int(length * 17 + .5) + int(157003 * log(width+.001)); if(shPipe.count(id)) return shPipe[id]; hpcshape& pipe = shPipe[id]; println(hlog, "generating pipe of length ", length, " and width ", width); bshape(pipe, PPR::WALL); #if CAP_GL auto& utt = models_texture; if(floor_textures) { pipe.tinf = &utt; pipe.texture_offset = isize(utt.tvertices); } #endif const int MAX_X = 8; const int MAX_R = 20; auto at = [&] (ld i, ld a, ld z = 1, ld s = 1) { a += 0.5; ld alpha = 360 * degree * a / MAX_R; hpcpush(xpush(i * length / MAX_X) * cspin(1, 2, alpha) * ypush0(width*z)); #if CAP_GL if(floor_textures) utt.tvertices.push_back(glhr::makevertex(0, 0.55 - s * 0.45 * sin(alpha), 0)); #endif }; for(int i=0; iflags |= POLY_TRIANGLES | POLY_PRINTABLE; finishshape(); extra_vertices(); return pipe; } #undef S #undef SH #undef revZ #endif }