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hyperrogue/floorshapes.cpp

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namespace hr {
#if CAP_SHAPES
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vector<plain_floorshape*> all_plain_floorshapes;
vector<escher_floorshape*> all_escher_floorshapes;
plain_floorshape
shFloor,
shMFloor, shMFloor2, shMFloor3, shMFloor4, shFullFloor,
shBigTriangle, shTriheptaFloor, shBigHepta;
escher_floorshape shStarFloor(1,2),
shCloudFloor(3, 4),
shCrossFloor(5, 6, 2, 54),
shChargedFloor(7, 385, 1, 10),
shSStarFloor(11, 12),
shOverFloor(13, 15, 1, 14),
shTriFloor(17, 18, 0, 385),
shFeatherFloor(19, 21, 1, 20),
shBarrowFloor(23, 24, 1, 25),
shNewFloor(26, 27, 2, 54),
shTrollFloor(28, 29),
shButterflyFloor(325, 326, 1, 178),
shLavaFloor(359, 360, 1, 178),
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shLavaSeabed(386, 387, 1, 178),
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shSeabed(334, 335),
shCloudSeabed(336, 337),
shCaveSeabed(338, 339, 2, 54),
shPalaceFloor(45, 46, 0, 385),
shDemonFloor(51, 50, 1, 178),
shCaveFloor(52, 53, 2, 54),
shDesertFloor(55, 56, 0, 4),
shPowerFloor(57, 58, 0, 12), /* dragon */
shRoseFloor(174, 175, 1, 173),
shSwitchFloor(377, 378, 1, 379),
shTurtleFloor(176, 177, 1, 178),
shRedRockFloor[3] = {{55, 56}, {55, 56}, {55, 56}}, // 1 - .1 * i
shDragonFloor(181, 182, 2, 183); /* dragon */
typedef pair<transmatrix, array<transmatrix, MAX_EDGE>> matrixitem;
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struct mesher {
eGeometry g;
int sym;
ld bspi;
hyperpoint lcorner, rcorner, mfar[2], vfar[4];
};
mesher msh(eGeometry g, int sym, ld main, ld v0, ld v1, ld bspi, ld scale) {
main *= scale; v0 *= scale; v1 *= scale;
mesher m;
m.sym = sym;
m.bspi = bspi;
dynamicval<eGeometry> dg(geometry, g);
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hyperpoint rot = xpush(v0) * xspinpush0(M_PI - M_PI/sym, main);
hyperpoint bnlfar = xpush(v0) * spin(M_PI) * rspintox(rot) * rspintox(rot) * rspintox(rot) * xpush0(hdist0(rot));
hyperpoint bnrfar = xpush(v0) * spin(M_PI) * spintox(rot) * spintox(rot) * spintox(rot) * xpush0(hdist0(rot));
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m.lcorner = xspinpush0 (bspi-M_PI/sym, main);
m.rcorner = xspinpush0 (bspi+M_PI/sym, main);
m.mfar[0] = xspinpush0 (bspi, v0);
m.mfar[1] = xspinpush0 (bspi, v1);
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m.vfar[0] = spin(bspi) * bnlfar;
m.vfar[2] = spin(bspi) * bnrfar;
m.vfar[1] = spin(-2*M_PI/sym) * m.vfar[2];
m.vfar[3] = spin(+2*M_PI/sym) * m.vfar[0];
return m;
}
struct matrixlist {
mesher o, n;
vector<matrixitem> v;
};
matrixitem genitem(const transmatrix& m1, const transmatrix& m2, int nsym) {
matrixitem mi;
mi.first = m1;
for(int i=0; i<nsym; i++)
mi.second[i] = spin(2*M_PI*i/nsym) * m2;
return mi;
}
void addmatrix(matrixlist& matrices, hyperpoint o0, hyperpoint o1, hyperpoint o2, hyperpoint n0, hyperpoint n1, hyperpoint n2, int d, int osym, int nsym) {
matrices.v.push_back(genitem(inverse(spin(2*M_PI*d/osym)*build_matrix(o0, o1, o2)), spin(2*M_PI*d/nsym)*build_matrix(n0, n1, n2), nsym));
}
matrixlist hex_matrices, hept_matrices;
void generate_matrices(matrixlist& matrices, const mesher& o, const mesher& n) {
matrices.v.clear();
matrices.o = o;
matrices.n = n;
for(int d=0; d<o.sym; d++) {
hyperpoint center = hpxy(0,0);
int d1 = d&1;
addmatrix(matrices, center, o.lcorner, o.rcorner, center, n.lcorner, n.rcorner, d, o.sym, n.sym);
addmatrix(matrices, o.mfar[d1], o.lcorner, o.rcorner, n.mfar[d1], n.lcorner, n.rcorner, d, o.sym, n.sym);
addmatrix(matrices, o.mfar[d1], o.lcorner, o.vfar[d1], n.mfar[d1], n.lcorner, n.vfar[d1], d, o.sym, n.sym);
addmatrix(matrices, o.mfar[d1], o.rcorner, o.vfar[d1+2], n.mfar[d1], n.rcorner, n.vfar[d1+2], d, o.sym, n.sym);
}
}
int nsym0;
void generate_matrices_scale(ld scale, int noft) {
mesher ohex = msh(gNormal, 6, 0.329036, 0.566256, 0.620672, 0, 1);
mesher ohept = msh(gNormal, 7, hexf7, hcrossf7, hcrossf7, M_PI/7, 1);
if(!BITRUNCATED) {
mesher nall = msh(geometry, S7, rhexf, tessf, tessf, -M_PI, scale);
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bool use = geosupport_football() < 2;
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if(use && noft == 1) {
mesher opure = msh(gNormal, 7, 0.620672, 1.090550, 1.090550, M_PI/7, 1);
generate_matrices(hept_matrices, opure, nall);
}
else if(use && noft == 2) {
mesher oeuc = msh(gNormal, 6, sqrt(3)/6, .5, .5, 0, 1);
generate_matrices(hept_matrices, oeuc, nall);
}
else if(use && noft == 3) {
generate_matrices(hept_matrices, ohex, nall);
}
else {
generate_matrices(hex_matrices, ohex, nall);
generate_matrices(hept_matrices, ohept, nall);
}
}
else {
generate_matrices(hex_matrices, ohex, msh(geometry, S6, hexvdist, hexhexdist, hcrossf, (S3-3)*M_PI/S3, scale));
generate_matrices(hept_matrices, ohept, msh(geometry, S7, rhexf, hcrossf, hcrossf, euclid6?0:euclid4?0:M_PI/S7, scale));
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}
}
void bshape2(hpcshape& sh, PPR prio, int shapeid, matrixlist& m) {
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auto& matrices = m.v;
int osym = m.o.sym;
int nsym = m.n.sym;
int whereis = 0;
while(polydata[whereis] != NEWSHAPE || polydata[whereis+1] != shapeid) whereis++;
int rots = polydata[whereis+2]; int sym = polydata[whereis+3];
whereis += 4;
int qty = 0;
while(polydata[whereis + 2*qty] != NEWSHAPE) qty++;
vector<hyperpoint> lst;
for(int i=0; i<qty; i++) {
dynamicval<eGeometry> dg(geometry, gNormal);
lst.push_back(hpxy(polydata[whereis+2*i], polydata[whereis+2*i+1]));
}
if(sym == 2)
for(int i=qty-1; i>=0; i--) {
dynamicval<eGeometry> dg(geometry, gNormal);
lst.push_back(hpxy(polydata[whereis+2*i], -polydata[whereis+2*i+1]));
}
hyperpoint lstmid = hpxyz(0,0,0);
using namespace hyperpoint_vec;
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for(auto pp: lst) lstmid += pp;
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transmatrix T = spin(-m.o.bspi);
while((spin(2*M_PI / rots) * T* lstmid)[0] < (T*lstmid)[0])
T = spin(2*M_PI / rots) * T;
while((spin(-2*M_PI / rots) * T* lstmid)[0] < (T*lstmid)[0])
T = spin(-2*M_PI / rots) * T;
T = spin(m.o.bspi) * T;
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for(auto &pp: lst) pp = T * pp;
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if(osym % rots && rots % osym) printf("warning: rotation oddity (shapeid %d, osym=%d rots=%d)\n", shapeid, osym, rots);
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if(rots > osym && rots % osym == 0) {
int rep = rots / osym;
int s = lst.size();
for(int i=0; i<s*(rep-1); i++)
lst.push_back(spin(2*M_PI/rots) * lst[i]);
rots /= rep;
}
bshape(sh, prio);
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for(int r=0; r<nsym; r+=osym/rots) {
for(hyperpoint h: lst) {
hyperpoint nh = h;
int mapped = 0;
for(auto& m: matrices) {
hyperpoint z = m.first * h;
if(z[0] > -1e-5 && z[1] > -1e-5 && z[2] > -1e-5) {
nh = m.second[r] * z, mapped++;
}
}
if(mapped == 0) printf("warning: not mapped (shapeid %d)\n", shapeid);
hpcpush(mid(nh, nh));
}
}
hpcpush(hpc[last->s]);
}
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#if CAP_BT
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void horopoint(ld y, ld x) {
hpcpush(get_horopoint(y, x));
}
void horopoint(ld y, ld x, cell &fc, int c) {
hpcpush(iddspin(&fc, c) * get_horopoint(y, x));
}
void horoline(ld y, ld x1, ld x2) {
for(int a=0; a<=16; a++)
horopoint(y, x1 + (x2-x1) * a / 16.);
}
void horoline(ld y, ld x1, ld x2, cell &fc, int c) {
for(int a=0; a<=16; a++)
horopoint(y, x1 + (x2-x1) * a / 16., fc, c);
}
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#endif
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void bshape_regular(floorshape &fsh, int id, int sides, int shift, ld size) {
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fsh.b.resize(2);
fsh.shadow.resize(2);
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#if CAP_BT
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if(binarytiling) {
bshape(fsh.b[id], fsh.prio);
ld yx = size * log(2) / 2;
ld yy = yx;
ld xx = size / sqrt(2)/2;
horoline(-yx, -xx, xx); horoline(yx, xx*2, -xx*2); horopoint(-yx, -xx);
bshape(fsh.shadow[id], fsh.prio);
horoline(-yx*SHADMUL, -xx*SHADMUL, xx*SHADMUL); horoline(yx*SHADMUL, xx*SHADMUL*2, -xx*SHADMUL*2); horopoint(-yx*SHADMUL, -xx*SHADMUL);
cell fc;
fc.type = 6+id;
for(int k=0; k<SIDEPARS; k++) {
for(int i=0; i<fc.type; i++) fsh.gpside[k][i].resize(2);
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bshape(fsh.gpside[k][0][id], PPR::LAKEWALL); horopoint(-yy, xx, fc, 0); horopoint(yy, 2*xx, fc, 0); chasmifyPoly(dlow_table[k], dhi_table[k], k);
bshape(fsh.gpside[k][1][id], PPR::LAKEWALL); horoline(yy, 2*xx, xx, fc, 1); chasmifyPoly(dlow_table[k], dhi_table[k], k);
bshape(fsh.gpside[k][2][id], PPR::LAKEWALL); horoline(yy, xx, -xx, fc, 2); chasmifyPoly(dlow_table[k], dhi_table[k], k);
bshape(fsh.gpside[k][3][id], PPR::LAKEWALL); horoline(yy, -xx, -2*xx, fc, 3); chasmifyPoly(dlow_table[k], dhi_table[k], k);
bshape(fsh.gpside[k][4][id], PPR::LAKEWALL); horopoint(yy, -2*xx, fc, 4); horopoint(-yy, -xx, fc, 4); chasmifyPoly(dlow_table[k], dhi_table[k], k);
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if(id == 0) {
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bshape(fsh.gpside[k][5][id], PPR::LAKEWALL); horoline(-yy, -xx, xx, fc, 5); chasmifyPoly(dlow_table[k], dhi_table[k], k);
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}
else {
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bshape(fsh.gpside[k][5][id], PPR::LAKEWALL); horoline(-yy, -xx, 0, fc, 5); chasmifyPoly(dlow_table[k], dhi_table[k], k);
bshape(fsh.gpside[k][6][id], PPR::LAKEWALL); horoline(-yy, -0, xx, fc, 6); chasmifyPoly(dlow_table[k], dhi_table[k], k);
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}
}
return;
}
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#endif
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bshape(fsh.b[id], fsh.prio);
for(int t=0; t<=sides; t++)
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hpcpush(xspinpush0(t*2 * M_PI / sides + shift * M_PI / S42, size));
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bshape(fsh.shadow[id], fsh.prio);
for(int t=0; t<=sides; t++)
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hpcpush(xspinpush0(t*2 * M_PI / sides + shift * M_PI / S42, size * SHADMUL));
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for(int k=0; k<SIDEPARS; k++) {
fsh.side[k].resize(2);
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bshape(fsh.side[k][id], PPR::LAKEWALL);
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hpcpush(xspinpush0(M_PI/sides, size));
hpcpush(xspinpush0(-M_PI/sides, size));
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chasmifyPoly(dlow_table[k], dhi_table[k], k);
}
}
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#if CAP_IRR
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namespace irr { void generate_floorshapes(); }
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#endif
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template<class T> void sizeto(T& t, int n) {
if(isize(t) <= n) t.resize(n+1);
}
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// !siid equals pseudohept(c)
void generate_floorshapes_for(int id, cell *c, int siid, int sidir) {
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for(auto pfsh: all_plain_floorshapes) {
auto& fsh = *pfsh;
if(STDVAR && !archimedean) {
// standard and binary
ld hexside = fsh.rad0, heptside = fsh.rad1;
for(int k=0; k<SIDEPARS; k++) sizeto(fsh.side[k], id);
int td = ((PURE || euclid) && !(S7&1)) ? S42+S6 : 0;
if(&fsh == &shBigHepta) td += S6;
int b = 0;
if(S3 == 4 && BITRUNCATED) b += S14;
if(id == 1)
bshape_regular(fsh, 1, S7, td, heptside);
else if(PURE) {
if(&fsh == &shTriheptaFloor)
bshape_regular(fsh, 0, S7/2, 0, hexside);
else if(&fsh == &shBigTriangle)
bshape_regular(fsh, 0, S7/2, S12, hexside);
else
bshape_regular(fsh, 0, S7, td, heptside);
}
else if(&fsh == &shBigTriangle)
bshape_regular(fsh, 0, S3, b+S14, hexside);
else if(&fsh == &shTriheptaFloor)
bshape_regular(fsh, 0, S3, b, hexside);
else
bshape_regular(fsh, 0, S6, S7, hexside);
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continue;
}
// special
ld sca = 3 * shFullFloor.rad0 / fsh.rad0;
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vector<hyperpoint> cornerlist;
int cor = c->type;
if(&fsh == &shTriheptaFloor) {
if(!siid) {
for(int i=0; i<cor; i++)
cornerlist.push_back(midcorner(c, i, .49));
}
else {
for(int i=0; i<cor; i++) {
int ri = i;
if((i&1) == ((sidir+siid)&1)) ri--;
ri = fixdir(ri, c);
cornerlist.push_back(mid(get_corner_position(c, ri, 3.1), get_corner_position(c, (ri+1) % c->type, 3.1)));
}
}
}
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else if(&fsh == &shBigTriangle) {
if(!siid) {
for(int i=0; i<cor; i++) cornerlist.push_back(hpxy(0,0));
}
else {
for(int i=0; i<cor; i++) {
int ri = i;
if((i&1) != ((sidir+siid)&1)) ri--;
ri = fixdir(ri, c);
hyperpoint nc = nearcorner(c, ri);
cornerlist.push_back(mid_at(hpxy(0,0), nc, .94));
}
}
}
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else if(&fsh == &shBigHepta) {
if(!siid) {
for(int i=0; i<cor; i++) {
hyperpoint nc = nearcorner(c, i);
cornerlist.push_back(mid_at(hpxy(0,0), nc, .94));
}
}
else {
for(int i=0; i<cor; i++) cornerlist.push_back(hpxy(0,0));
}
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}
else {
for(int j=0; j<cor; j++)
cornerlist.push_back(get_corner_position(c, j, sca));
}
sizeto(fsh.b, id);
bshape(fsh.b[id], fsh.prio);
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if(cor == 2) {
/* give digons some width */
for(int i=0; i<cor; i++) hpcpush(spin(-.1) * cornerlist[i]), hpcpush(spin(+.1) * cornerlist[i]);
hpcpush(spin(-.1) * cornerlist[0]);
}
else if(&fsh == &shTriheptaFloor && cor == 4 && siid)
/* trihepta floors generate digons too */
for(int i=0; i<=cor; i++) hpcpush(spin((i&1) ? .1 : -.1) * cornerlist[i%cor]);
else
for(int i=0; i<=cor; i++) hpcpush(cornerlist[i%cor]);
sizeto(fsh.shadow, id);
bshape(fsh.shadow[id], fsh.prio);
for(int i=0; i<=cor; i++)
hpcpush(mid_at(hpxy(0,0), cornerlist[i%cor], SHADMUL));
// printf("at = %d,%d cor = %d sca = %lf\n", li.relative.first, li.relative.second, cor, sca);
for(int k=0; k<SIDEPARS; k++)
for(int cid=0; cid<cor; cid++) {
sizeto(fsh.gpside[k][cid], id);
bshape(fsh.gpside[k][cid][id], fsh.prio);
hpcpush(iddspin(c, cid) * cornerlist[cid]);
hpcpush(iddspin(c, cid) * cornerlist[(cid+1)%cor]);
chasmifyPoly(dlow_table[k], dhi_table[k], k);
}
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}
for(auto pfsh: all_escher_floorshapes) {
auto& fsh = *pfsh;
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sizeto(fsh.b, id);
sizeto(fsh.shadow, id);
if(STDVAR && !binarytiling && !archimedean) {
generate_matrices_scale(fsh.scale, fsh.noftype);
if(PURE && geosupport_football() < 2 && fsh.shapeid2) {
if(id == 0) bshape2(fsh.b[0], fsh.prio, fsh.shapeid2, hept_matrices);
if(id == 1) bshape2(fsh.b[1], fsh.prio, fsh.shapeid2, hept_matrices);
}
else {
if(id == 0) bshape2(fsh.b[0], fsh.prio, fsh.shapeid0, hex_matrices);
if(id == 1) bshape2(fsh.b[1], fsh.prio, fsh.shapeid1, hept_matrices);
}
generate_matrices_scale(fsh.scale * SHADMUL, fsh.noftype);
if(PURE && geosupport_football() < 2 && fsh.shapeid2) {
if(id == 0) bshape2(fsh.shadow[0], fsh.prio, fsh.shapeid2, hept_matrices);
if(id == 1) bshape2(fsh.shadow[1], fsh.prio, fsh.shapeid2, hept_matrices);
}
else {
if(id == 0) bshape2(fsh.shadow[0], fsh.prio, fsh.shapeid0, hex_matrices);
if(id == 1) bshape2(fsh.shadow[1], fsh.prio, fsh.shapeid1, hept_matrices);
}
}
else {
generate_matrices_scale(fsh.scale, fsh.noftype);
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auto& m = (siid && geosupport_football() == 2) ? hex_matrices : hept_matrices;
int cor = c->type;
m.n.sym = cor;
int v = sidir+siid;
for(int ii=0; ii<2; ii++) {
int i = 0;
for(int d=0; d<m.o.sym; d++) {
hyperpoint center = hpxy(0,0);
for(int cid=0; cid<cor; cid++) {
hyperpoint nlcorner = get_corner_position(c, (d+cid+v+1) % cor, 3 / fsh.scale * (ii ? 1/SHADMUL : 1));
hyperpoint nrcorner = get_corner_position(c, (d+cid+v+2) % cor, 3 / fsh.scale * (ii ? 1/SHADMUL : 1));
hyperpoint nfar = nearcorner(c, (d+cid+v+1) % cor);
hyperpoint nlfar = farcorner(c, (d+cid+v+1) % cor, 0);
hyperpoint nrfar = farcorner(c, (d+cid+v+1) % cor, 1);
m.v[i].second[cid] = build_matrix(center, nlcorner, nrcorner);
m.v[i+1].second[cid] = build_matrix(nfar, nlcorner, nrcorner);
m.v[i+2].second[cid] = build_matrix(nfar, nlcorner, nlfar);
m.v[i+3].second[cid] = build_matrix(nfar, nrcorner, nrfar);
}
i += 4;
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}
if(i != isize(m.v)) printf("warning: i=%d sm=%d\n", i, isize(m.v));
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bshape2((ii?fsh.shadow:fsh.b)[id], fsh.prio, (fsh.shapeid2 && geosupport_football() < 2) ? fsh.shapeid2 : siid?fsh.shapeid0:fsh.shapeid1, m);
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}
}
}
}
void generate_floorshapes() {
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if(0);
#if CAP_IRR
else if(IRREGULAR) {
printf("generating irregular floorshapes...\n");
cell model;
int cc = isize(irr::cells);
for(int id=0; id<cc; id++) {
irr::cellindex[&model] = id;
auto& vs = irr::cells[id];
model.type = isize(vs.vertices);
int siid = !vs.is_pseudohept;
int sidir = 0;
if(siid) sidir = irr::cells[vs.neid[0]].is_pseudohept;
generate_floorshapes_for(id, &model, !vs.is_pseudohept, sidir);
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}
printf("done\n");
}
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#endif
else if(GOLDBERG) { /* will be generated on the fly */ }
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#if CAP_ARCM
else if(archimedean) {
heptagon master;
cell model;
model.master = &master;
arcm::parent_index_of(&master) = 0;
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auto &ac = arcm::current;
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for(int i=0; i<2*ac.N + 2; i++) {
arcm::id_of(&master) = i;
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model.type = isize(ac.triangles[i]);
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if(DUAL) model.type /= 2, arcm::parent_index_of(&master) = !(i&1);
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if(BITRUNCATED)
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generate_floorshapes_for(i, &model, !arcm::pseudohept(&model), arcm::pseudohept(&model) ? 0 : 1^(i&1));
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else if(geosupport_football() == 2)
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generate_floorshapes_for(i, &model, !arcm::pseudohept(&model), i >= 4 ? 1 : 0);
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else
generate_floorshapes_for(i, &model, 0, 0);
}
}
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#endif
else {
cell model;
model.type = S6; generate_floorshapes_for(0, &model, 0, 0);
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model.type = S7; generate_floorshapes_for(1, &model, binarytiling ? 0 : 1, 0);
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}
}
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#if CAP_GP
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namespace gp {
int pshid[3][8][32][32][8];
int nextid;
extern gp::local_info draw_li;
void clear_plainshapes() {
for(int m=0; m<3; m++)
for(int sd=0; sd<8; sd++)
for(int i=0; i<32; i++)
for(int j=0; j<32; j++)
for(int k=0; k<8; k++)
pshid[m][sd][i][j][k] = -1;
nextid = 0;
}
void build_plainshape(int& id, gp::local_info& li, cell *c0, int siid, int sidir) {
id = nextid++;
bool master = !(li.relative.first||li.relative.second);
int cor = master ? S7 : SG6;
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if(master) li.last_dir = -1;
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if(debug_geometry)
printf("last=%d at=%d,%d tot=%d siid=%d sidir=%d cor=%d id=%d\n", li.last_dir, li.relative.first, li.relative.second, li.total_dir, siid, sidir, cor, id);
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generate_floorshapes_for(id, c0, siid, sidir);
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finishshape(); last = NULL;
extra_vertices();
}
int get_plainshape_id(cell *c) {
int siid, sidir;
if(geosupport_threecolor() == 2) {
auto si = patterns::getpatterninfo(c, patterns::PAT_COLORING, patterns::SPF_NO_SUBCODES);
siid = si.id>>2;
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// if(siid == 2) si.dir++;
// if(siid != pattern_threecolor(c)) printf("threecolor mismatch\n");
// if(pattern_threecolor(createMov(c, fixdir(si.dir, c))) != (siid+1)%3) printf("threecolor mismatch direction\n");
sidir = fixdir(si.dir, c);
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}
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else if(geosupport_football() == 2) {
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siid = !pseudohept(c);
sidir = !ishex1(c);
}
else {
siid = 0;
sidir = 0;
}
auto& id = pshid[siid][sidir][draw_li.relative.first&31][draw_li.relative.second&31][fix6(draw_li.total_dir)];
if(id == -1 && sphere && isize(shFloor.b) > 0) {
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forCellEx(c1, c) if(!gmatrix0.count(c1)) return 0;
}
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if(id == -1) build_plainshape(id, draw_li, c, siid, sidir);
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return id;
}
}
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#endif
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qfloorinfo qfi;
void set_no_floor() {
qfi.fshape = NULL;
qfi.shape = NULL;
qfi.tinf = NULL;
qfi.usershape = -1;
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}
void set_floor(floorshape& sh) {
qfi.fshape = &sh;
qfi.shape = NULL;
qfi.tinf = NULL;
qfi.usershape = -1;
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}
void set_floor(hpcshape& sh) {
qfi.shape = &sh;
qfi.fshape = NULL;
qfi.spin = Id;
qfi.tinf = NULL;
qfi.usershape = -1;
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}
void set_floor(const transmatrix& spin, hpcshape& sh) {
qfi.shape = &sh;
qfi.fshape = NULL;
qfi.spin = spin;
qfi.usershape = -1;
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}
void draw_shapevec(cell *c, const transmatrix& V, const vector<hpcshape> &shv, color_t col, PPR prio = PPR::DEFAULT) {
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if(!c) queuepolyat(V, shv[0], col, prio);
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#if CAP_GP
else if(GOLDBERG) {
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int id = gp::get_plainshape_id(c);
queuepolyat(V, shv[id], col, prio);
}
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#endif
#if CAP_IRR
else if(IRREGULAR) {
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int id = irr::cellindex[c];
if(id < 0 || id >= isize(shv)) {
return;
}
queuepolyat(V, shv[id], col, prio);
}
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#endif
#if CAP_ARCM
else if(archimedean) {
queuepolyat(V, shv[arcm::id_of(c->master)], col, prio);
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}
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#endif
else if((euclid || GOLDBERG) && ishex1(c))
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queuepolyat(V * pispin, shv[0], col, prio);
else if(!(S7&1) && PURE) {
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auto si = patterns::getpatterninfo(c, patterns::PAT_COLORING, 0);
if(si.id == 8) si.dir++;
transmatrix D = applyPatterndir(c, si);
queuepolyat(V*D, shv[pseudohept(c)], col, prio);
}
else if(geosupport_threecolor() == 2)
queuepolyat(V, shv[pseudohept(c)], col, prio);
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else if(binarytiling)
queuepolyat(V, shv[c->type-6], col, prio);
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else
queuepolyat(V, shv[ctof(c)], col, prio);
}
void draw_floorshape(cell *c, const transmatrix& V, const floorshape &fsh, color_t col, PPR prio = PPR::DEFAULT) {
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draw_shapevec(c, V, fsh.b, col, prio);
}
void draw_qfi(cell *c, const transmatrix& V, color_t col, PPR prio = PPR::DEFAULT, vector<hpcshape> floorshape::* tab = &floorshape::b) {
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if(qfi.shape)
queuepolyat(V * qfi.spin, *qfi.shape, col, prio);
else if(qfi.usershape >= 0) {
mapeditor::drawUserShape(V * qfi.spin, mapeditor::sgFloor, qfi.usershape, col, c);
}
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else if(!qfi.fshape) ;
#if CAP_TEXTURE
else if(qfi.tinf) {
auto& poly = queuetable(V * qfi.spin, qfi.tinf->vertices, isize(qfi.tinf->vertices), texture::config.mesh_color, texture::config.recolor(col), prio == PPR::DEFAULT ? PPR::FLOOR : prio);
poly.tinf = qfi.tinf;
poly.flags = POLY_INVERSE;
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}
#endif
else draw_shapevec(c, V, (qfi.fshape->*tab), col, prio);
}
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bool floorshape_debug;
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void viewmat() {
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if(floorshape_debug) {
transmatrix V = ggmatrix(cwt.at);
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for(int i=0; i<cwt.at->type; i++) {
hyperpoint ci = V * get_corner_position(cwt.at, i);
hyperpoint ci1 = V * get_corner_position(cwt.at, (i+1) % cwt.at->type);
hyperpoint cn = V * nearcorner(cwt.at, i);
hyperpoint cf0 = V * farcorner(cwt.at, i, 0);
hyperpoint cf1 = V * farcorner(cwt.at, i, 1);
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queuestr(ci, 20, its(i), 0x0000FF, 1);
if(vid.grid)
queuestr(cn, 20, its(i), 0x00FF00, 1);
else
queuestr(gmatrix[cwt.at->move(i)] * C0, 20, its(i), 0x00FFFF, 1);
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queueline(V * C0, ci, 0xFFFFFFFF, 3);
queueline(ci, ci1, 0xFFFF00FF, 3);
queueline(ci, cn, 0xFF00FFFF, 3);
queueline(ci1, cn, 0xFF0000FF, 3);
queueline(ci, cf0, 0x00FFFFFF, 3);
queueline(cn, cf0, 0x00FF00FF, 3);
queueline(cn, cf1, 0x0000FFFF, 3);
}
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}
}
#if CAP_COMMANDLINE
auto floor_hook =
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addHook(hooks_args, 100, [] () {
using namespace arg;
if(argis("-floordebug")) { floorshape_debug = true; return 0; }
else return 1;
});
#endif
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#endif
}