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hyperrogue/geometry.cpp

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// Hyperbolic Rogue
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// geometrical constants
// Copyright (C) 2011-2018 Zeno Rogue, see 'hyper.cpp' for details
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namespace hr {
bool debug_geometry = false;
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ld tessf, crossf, hexf, hcrossf, hexhexdist, hexvdist, hepvdist, rhexf;
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// tessf: distance from heptagon center to another heptagon center
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// hexf: distance from heptagon center to small heptagon vertex
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// hcrossf: distance from heptagon center to big heptagon vertex
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// crossf: distance from heptagon center to adjacent cell center (either hcrossf or tessf)
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// hexhexdist: distance between adjacent hexagon vertices
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// hexvdist: distance between hexagon vertex and hexagon center
// hepvdist: distance between heptagon vertex and hexagon center (either hcrossf or something else)
// rhexf: distance from heptagon center to heptagon vertex (either hexf or hcrossf)
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int base_distlimit;
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transmatrix heptmove[MAX_EDGE], hexmove[MAX_EDGE];
transmatrix invheptmove[MAX_EDGE], invhexmove[MAX_EDGE];
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ld hexshift;
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ld sword_size = 0;
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ld corner_bonus = 0;
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ld asteroid_size[8];
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// the results are:
// hexf = 0.378077 hcrossf = 0.620672 tessf = 1.090550
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// hexhexdist = 0.566256
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ld hcrossf7 = 0.620672;
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ld hexf7 = 0.378077;
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ld scalefactor, orbsize, floorrad0, floorrad1, zhexf;
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// the distance between two hexagon centers
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void precalc() {
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DEBB(DF_INIT, (debugfile,"precalc\n"));
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hexshift = 0;
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ld fmin, fmax;
if(archimedean)
ginf[gArchimedean].cclass = gcHyperbolic;
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if(euclid) {
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// dynamicval<eGeometry> g(geometry, gNormal);
// precalc(); }
// for(int i=0; i<S84; i++) spinmatrix[i] = spin(i * M_PI / S42);
if(a4 && !BITRUNCATED) {
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crossf = .5;
hexf = .5;
hcrossf = crossf * sqrt(2) / 2;
hexhexdist = crossf;
hexvdist = hexf;
hepvdist = hexf;
rhexf = crossf * sqrt(2) / 2;
tessf = crossf;
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}
else if(a4 && BITRUNCATED) {
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ld s2 = sqrt(2);
ld xx = 1 - s2 / 2;
crossf = .5;
tessf = crossf * s2;
hexf = .5 * xx * s2;
hcrossf = crossf;
hexhexdist = crossf * s2;
hexvdist = crossf * hypot(1-xx, xx);
hepvdist = crossf;
rhexf = hexf;
tessf = crossf;
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}
else {
crossf = .5;
tessf = crossf * sqrt(3);
hexf = tessf/3;
hcrossf = crossf;
hexhexdist = crossf;
hexvdist = hexf;
hepvdist = crossf;
rhexf = hexf;
}
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goto finish;
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}
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if((sphere || hyperbolic) && WDIM == 3 && !binarytiling) {
rhexf = hexf = 0.378077;
crossf = hcrossf = 0.620672;
tessf = 1.090550;
hexhexdist = 0.566256;
goto finish;
}
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tessf = edge_of_triangle_with_angles(2*M_PI/S3, M_PI/S7, M_PI/S7);
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if(elliptic && S7 == 4) tessf = M_PI/2;
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hcrossf = edge_of_triangle_with_angles(M_PI/2, M_PI/S7, M_PI/S3);
crossf = BITRUNCATED ? hcrossf : tessf;
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fmin = 0, fmax = tessf;
for(int p=0; p<100; p++) {
ld f = (fmin+fmax) / 2;
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hyperpoint H = xpush0(f);
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hyperpoint H1 = spin(2*M_PI/S7) * H;
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hyperpoint H2 = xpush0(tessf-f);
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ld v1 = intval(H, H1), v2 = intval(H, H2);
if(v1 < v2) fmin = f; else fmax = f;
}
hexf = fmin;
rhexf = BITRUNCATED ? hexf : hcrossf;
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if(!euclid && BITRUNCATED && !(S7&1))
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hexshift = ALPHA/2 + ALPHA * ((S7-1)/2) + M_PI;
finish:
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for(int d=0; d<S7; d++)
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heptmove[d] = spin(-d * ALPHA) * xpush(tessf) * spin(M_PI);
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for(int d=0; d<S7; d++)
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hexmove[d] = spin(hexshift-d * ALPHA) * xpush(-crossf)* spin(M_PI);
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for(int d=0; d<S7; d++) invheptmove[d] = inverse(heptmove[d]);
for(int d=0; d<S7; d++) invhexmove[d] = inverse(hexmove[d]);
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hexhexdist = hdist(xpush0(crossf), xspinpush0(M_PI*2/S7, crossf));
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hexvdist = hdist(xpush0(hexf), xspinpush0(ALPHA/2, hcrossf));
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if(debug_geometry)
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printf("S7=%d S6=%d hexf = " LDF" hcross = " LDF" tessf = " LDF" hexshift = " LDF " hexhex = " LDF " hexv = " LDF "\n", S7, S6, hexf, hcrossf, tessf, hexshift,
hexhexdist, hexvdist);
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base_distlimit = ginf[geometry].distlimit[!BITRUNCATED];
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#if CAP_GP
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gp::compute_geometry();
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#endif
#if CAP_IRR
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irr::compute_geometry();
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#endif
#if CAP_ARCM
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if(archimedean) {
arcm::current.compute_geometry();
crossf = hcrossf7 * arcm::current.scale();
hexvdist = arcm::current.scale() * .5;
rhexf = arcm::current.scale() * .5;
}
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#endif
#if CAP_BT
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if(binarytiling) hexvdist = rhexf = 1, tessf = 1, scalefactor = 1, crossf = hcrossf7;
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if(geometry == gHoroRec) hexvdist = rhexf = .5, tessf = .5, scalefactor = .5, crossf = hcrossf7/2;
#endif
#if CAP_BT && MAXMDIM >= 4
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if(binarytiling && WDIM == 3) binary::build_tmatrix();
#endif
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scalefactor = crossf / hcrossf7;
orbsize = crossf;
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if(WDIM == 3) scalefactor *= geom3::creature_scale;
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zhexf = BITRUNCATED ? hexf : crossf* .55;
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if(WDIM == 3) zhexf *= geom3::creature_scale;
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floorrad0 = hexvdist* (GDIM == 3 ? 1 : 0.92);
floorrad1 = rhexf * (GDIM == 3 ? 1 : 0.94);
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if(euclid4) {
if(!BITRUNCATED)
floorrad0 = floorrad1 = rhexf * (GDIM == 3 ? 1 : .94);
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else
floorrad0 = hexvdist * (GDIM == 3 ? 1 : .9),
floorrad1 = rhexf * (GDIM == 3 ? 1 : .8);
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}
set_sibling_limit();
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}
transmatrix xspinpush(ld dir, ld dist) {
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if(euclid)
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return eupush(cos(dir) * dist, -sin(dir) * dist);
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else
return spin(dir) * xpush(dist) * spin(-dir);
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}
purehookset hooks_swapdim;
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namespace geom3 {
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bool always3 = false;
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int tc_alpha=3, tc_depth=1, tc_camera=2;
ld depth = 1; // world below the plane
ld camera = 1; // camera above the plane
ld wall_height = .3;
ld slev = .08;
ld lake_top = .25, lake_bottom = .9;
ld rock_wall_ratio = .9;
ld human_wall_ratio = .7;
ld human_height;
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bool gp_autoscale_heights = true;
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ld creature_scale, height_width;
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ld highdetail = 8, middetail = 8;
// Here we convert between the following parameters:
// abslev: level below the plane
// lev: level above the world (abslev = depth-lev)
// projection: projection parameter
// factor: zoom factor
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ld abslev_to_projection(ld abslev) {
if(sphere || euclid) return camera+abslev;
return tanh(abslev) / tanh(camera);
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}
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ld projection_to_abslev(ld proj) {
if(sphere || euclid) return proj-camera;
// tanh(abslev) / tanh(camera) = proj
return atanh(proj * tanh(camera));
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}
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ld lev_to_projection(ld lev) {
return abslev_to_projection(depth - lev);
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}
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ld projection_to_factor(ld proj) {
return lev_to_projection(0) / proj;
}
ld factor_to_projection(ld fac) {
return lev_to_projection(0) / fac;
}
ld lev_to_factor(ld lev) {
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if(WDIM == 3) return lev;
if(GDIM == 3) return depth - lev;
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return projection_to_factor(lev_to_projection(lev));
}
ld factor_to_lev(ld fac) {
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if(DIM == 3) return fac;
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return depth - projection_to_abslev(factor_to_projection(fac));
}
// how should we scale at level lev
ld scale_at_lev(ld lev) {
if(sphere || euclid) return 1;
return cosh(depth - lev);
}
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ld INFDEEP, BOTTOM, HELLSPIKE, LAKE, WALL, FLOOR, STUFF,
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SLEV[4], FLATEYE,
LEG0, LEG1, LEG, LEG3, GROIN, GROIN1, GHOST,
BODY, BODY1, BODY2, BODY3,
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NECK1, NECK, NECK3, HEAD, HEAD1, HEAD2, HEAD3,
ALEG0, ALEG, ABODY, AHEAD, BIRD;
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string invalid;
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ld actual_wall_height() {
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#if CAP_GP
if(GOLDBERG && gp_autoscale_heights)
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return wall_height * min<ld>(4 / hypot_d(2, gp::next), 1);
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#endif
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return wall_height;
}
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void compute() {
// tanh(depth) / tanh(camera) == vid.alpha
invalid = "";
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if(GDIM == 3) ;
else if(tc_alpha < tc_depth && tc_alpha < tc_camera)
vid.alpha = tan_auto(depth) / tan_auto(camera);
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else if(tc_depth < tc_alpha && tc_depth < tc_camera) {
ld v = vid.alpha * tan_auto(camera);
if(hyperbolic && (v<1e-6-12 || v>1-1e-12)) invalid = "cannot adjust depth", depth = camera;
else depth = atan_auto(v);
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}
else {
ld v = tan_auto(depth) / vid.alpha;
if(hyperbolic && (v<1e-12-1 || v>1-1e-12)) invalid = "cannot adjust camera", camera = depth;
else camera = atan_auto(v);
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}
if(fabs(vid.alpha) < 1e-6) invalid = "does not work with perfect Klein";
if(invalid != "") {
INFDEEP = .7;
BOTTOM = .8;
HELLSPIKE = .85;
LAKE = .9;
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FLOOR = 1;
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WALL = 1.25;
SLEV[0] = 1;
SLEV[1] = 1.08;
SLEV[2] = 1.16;
SLEV[3] = 1.24;
FLATEYE = 1.03;
LEG1 = 1.025;
LEG = 1.05;
LEG3 = 1.075;
GROIN = 1.09;
GROIN1 = 1.105;
GHOST = 1.1;
BODY = 1.15;
BODY1 = 1.151;
BODY2 = 1.152;
BODY3 = 1.153;
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NECK1 = 1.16;
NECK = 1.17;
NECK3 = 1.18;
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HEAD = 1.188;
HEAD1= 1.189;
HEAD2= 1.190;
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HEAD3= 1.191;
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ABODY = 1.08;
AHEAD = 1.12;
BIRD = 1.20;
}
else {
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INFDEEP = GDIM == 3 ? (sphere ? M_PI/2 : +10) : (euclid || sphere) ? 0.01 : lev_to_projection(0) * tanh(camera);
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ld wh = actual_wall_height();
WALL = lev_to_factor(wh);
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FLOOR = lev_to_factor(0);
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human_height = human_wall_ratio * wh;
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if(WDIM == 3) human_height = scalefactor * height_width / 2;
ld reduce = (WDIM == 3 ? human_height / 2 : 0);
LEG0 = lev_to_factor(human_height * .0 - reduce);
LEG1 = lev_to_factor(human_height * .1 - reduce);
LEG = lev_to_factor(human_height * .2 - reduce);
LEG3 = lev_to_factor(human_height * .3 - reduce);
GROIN = lev_to_factor(human_height * .4 - reduce);
GROIN1= lev_to_factor(human_height * .5 - reduce);
BODY = lev_to_factor(human_height * .6 - reduce);
BODY1 = lev_to_factor(human_height * .61 - reduce);
BODY2 = lev_to_factor(human_height * .62 - reduce);
BODY3 = lev_to_factor(human_height * .63 - reduce);
NECK1 = lev_to_factor(human_height * .7 - reduce);
NECK = lev_to_factor(human_height * .8 - reduce);
NECK3 = lev_to_factor(human_height * .9 - reduce);
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HEAD = lev_to_factor(human_height * .97 - reduce);
HEAD1 = lev_to_factor(human_height * .98 - reduce);
HEAD2 = lev_to_factor(human_height * .99 - reduce);
HEAD3 = lev_to_factor(human_height - reduce);
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reduce = (DIM == 3 ? human_height * .3 : 0);
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STUFF = lev_to_factor(human_height * .2);
ABODY = lev_to_factor(human_height * .4 - reduce);
ALEG0 = lev_to_factor(human_height * .0 - reduce);
ALEG = lev_to_factor(human_height * .2 - reduce);
AHEAD = lev_to_factor(human_height * .6 - reduce);
BIRD = lev_to_factor(DIM == 3 ? 0 : (human_wall_ratio+1)/2 * wh * .8);
GHOST = lev_to_factor(DIM == 3 ? 0 : human_height * .5);
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FLATEYE = lev_to_factor(human_height * .15);
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slev = rock_wall_ratio * wh / 3;
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for(int s=0; s<=3; s++)
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SLEV[s] = lev_to_factor(rock_wall_ratio * wh * s/3);
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LAKE = lev_to_factor(-lake_top);
HELLSPIKE = lev_to_factor(-(lake_top+lake_bottom)/2);
BOTTOM = lev_to_factor(-lake_bottom);
}
}
void switch_always3() {
geom3::always3 = !geom3::always3;
need_reset_geometry = true;
callhooks(hooks_swapdim);
}
void switch_tpp() {
if(pmodel == mdDisk && vid.camera_angle) {
vid.yshift = 0;
vid.camera_angle = 0;
vid.xposition = 0;
vid.yposition = 0;
vid.scale = 1;
vid.fixed_facing = false;
}
else {
vid.yshift = -0.3;
vid.camera_angle = -45;
vid.scale = 18/16. * vid.xres / vid.yres / multi::players;
vid.xposition = 0;
vid.yposition = -0.9;
vid.fixed_facing = true;
vid.fixed_facing_dir = 90;
}
}
void switch_fpp() {
if(!geom3::always3) {
geom3::always3 = true;
geom3::wall_height = 1.5;
if(sphere) {
geom3::depth = M_PI / 6;
geom3::wall_height = M_PI / 3;
}
geom3::human_wall_ratio = 0.8;
geom3::camera = 0;
if(pmodel == mdDisk) pmodel = mdPerspective;
need_reset_geometry = true;
callhooks(hooks_swapdim);
}
else {
geom3::always3 = false;
geom3::wall_height = .3;
geom3::human_wall_ratio = .7;
geom3::camera = 1;
geom3::depth = 1;
if(pmodel == mdPerspective) pmodel = mdDisk;
need_reset_geometry = true;
callhooks(hooks_swapdim);
}
}
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}
void initgeo() {
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// printf("%Lf\n", (ld) hdist0(xpush(-1)*ypush(0.01)*xpush(1)*C0));
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precalc();
}
}