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Added the constant PERIOD (=2*FULLSTEP) instead of 4, also commented on the constants

This commit is contained in:
Zeno Rogue 2018-12-03 21:54:36 +01:00
parent d7751b781d
commit c7f74cc745

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@ -6,6 +6,15 @@ namespace hr {
namespace crystal {
// Crystal can be bitruncated either by changing variation to bitruncated.
// In case of the 4D Crystal, the standard HyperRogue bitruncation becomes
// confused by having both the original and new vertices of degree 8.
// Hence Crystal implements its own bitruncation, which is selected/checked
// by setting ginf[gCrystal].vertex to 3. Additionally, this lets us double
// bitruncate.
// Function pure() checks for both kinds of bitruncation (or any other variations).
bool pure() {
return PURE && ginf[gCrystal].vertex == 4;
}
@ -39,9 +48,16 @@ void resize2(vector<vector<int>>& v, int a, int b, int z) {
for(auto& w: v) w.resize(b, z);
}
// in the "pure" form, the adjacent vertices are internaly spaced by 2...
const int FULLSTEP = 2;
// ... to make space for the additional vertices which are added in the bitruncated version
const int HALFSTEP = 1;
// with variations, the connections of the vertex at coordinate v+FULLSTEP mirror the connections
// of the vertex at coordinate v. Therefore, the period of our construction is actually 2*FULLSTEP.
const int PERIOD = 2 * FULLSTEP;
struct crystal_structure {
int dir;
int dim;
@ -526,9 +542,9 @@ int precise_distance(cell *c1, cell *c2) {
auto h = m->get_coord(c3) - co1;
ld dot = (h|mul);
if(dot > mmax + 2.5) continue;
if(dot > mmax + PERIOD/2 + .1) continue;
for(int k=0; k<m->cs.dim; k++) if(abs(h[k] - dot * mul[k]) > 4.1) goto next3;
for(int k=0; k<m->cs.dim; k++) if(abs(h[k] - dot * mul[k]) > PERIOD + .1) goto next3;
cl.add(c3);
next3: ;
}
@ -584,7 +600,7 @@ int dist_relative(cell *c) {
coord hrmap_crystal::long_representant(cell *c) {
auto& coordid = east.coordid;
auto co = roundcoord(get_coord(c) * Modval/4);
auto co = roundcoord(get_coord(c) * Modval/PERIOD);
for(int s=0; s<coordid; s++) co[s] = gmod(co[s], Modval);
for(int s=coordid+1; s<cs.dim; s++) {
int v = gdiv(co[s], Modval);
@ -984,7 +1000,7 @@ string get_table_volume() {
bignum res;
manual_celllister cl;
cl.add(m->gamestart());
ld rad2 = pow(roundTableRadius(NULL) / m->camelot_mul / 4, 2) + 1e-4;
ld rad2 = pow(roundTableRadius(NULL) / m->camelot_mul / PERIOD, 2) + 1e-4;
for(int i=0; i<isize(cl.lst); i++) {
cell *c = cl.lst[i];
ld mincoord = 9, maxcoord = -9;
@ -994,9 +1010,9 @@ string get_table_volume() {
if(co[i] > maxcoord) maxcoord = co[i];
}
static const ld eps = 1e-4;
if(mincoord >= 0-eps && maxcoord < 4-eps) {
if(mincoord >= 0-eps && maxcoord < PERIOD-eps) {
ld my_rad2 = rad2;
auto cshift = (co - m->camelot_coord) / 4;
auto cshift = (co - m->camelot_coord) / PERIOD;
auto sd = &shift_data_zero;
for(int i=0; i<m->cs.dim; i++) {
if(i == m->cs.dim-1 && (m->cs.dir&1)) {