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https://github.com/zenorogue/hyperrogue.git
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semiline support; late regrouping
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dc1d3e4ee1
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@ -8,6 +8,7 @@ static const int sfPH = 1;
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static const int sfLINE = 2;
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static const int sfCHESS = 4;
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static const int sfTHREE = 8;
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static const int sfSEMILINE = 16;
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struct archimedean_tiling {
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@ -22,6 +23,7 @@ struct archimedean_tiling {
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bool have_ph, have_line, have_symmetry;
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int real_faces;
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int real_face_type;
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int repetition = 1;
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int N;
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@ -61,6 +63,7 @@ struct archimedean_tiling {
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int support_threecolor();
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int support_football();
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bool support_chessboard();
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void regroup();
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ld scale();
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};
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@ -154,6 +157,7 @@ void archimedean_tiling::prepare() {
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if(inv) at = (at+1) % N;
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else at = (at+N-1) % N;
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}
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if(!inv) make_match(2*i, 0, inv ? (2*at+2*N-1) % 2*N : 2*at, 0);
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SDEBUG(printf("-> [%d %d]\n", at, inv);)
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}
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}
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@ -188,6 +192,14 @@ void archimedean_tiling::prepare() {
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printf("\n");
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} )
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for(int i=0; i<M; i++) {
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for(int j=0; j<isize(adjacent[i]); j++) {
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auto p = adjacent[i][j];
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auto q = adjacent[p.first][p.second];
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make_match(i, j, q.first, q.second);
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}
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}
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/* verify all the triangles */
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for(int i=0; i<M; i++) {
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for(int j=0; j<isize(adjacent[i]); j++) {
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@ -214,6 +226,14 @@ void archimedean_tiling::prepare() {
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}
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}
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regroup();
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euclidean_angle_sum = 0;
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for(int f: faces) euclidean_angle_sum += (f-2.) / f;
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}
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void archimedean_tiling::regroup() {
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int M = 2 * N + 2;
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for(int i=0; i<M; i++) for(int j=0; j<M; j++) if(matches[i][j] != -1)
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for(int l=0; l<M; l++) for(int k=0; k<M; k++) if(matches[j][k] != -1) {
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make_match(i, 0, k, matches[i][j] + matches[j][k]);
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@ -231,8 +251,13 @@ void archimedean_tiling::prepare() {
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flags.clear();
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flags.resize(M);
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for(int i=0; i<M; i++)
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for(int j=0; j<2*N; j++)
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if(tilegroup[i] == tilegroup[j]) flags[i] |= nflags[j/2];
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for(int j=0; j<2*N; j++) {
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if(tilegroup[i] == tilegroup[j]) {
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flags[i] |= nflags[j/2];
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if(j%2 == 1 && (nflags[j/2] & sfSEMILINE))
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flags[i] |= sfLINE;
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}
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}
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if(!have_ph) {
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if(true) {
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@ -247,9 +272,6 @@ void archimedean_tiling::prepare() {
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printf("tiling group of %2d: [%2d]%2d+Z%2d\n", i, tilegroup[i], groupoffset[i], periods[i]);
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printf("\n");
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} )
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euclidean_angle_sum = 0;
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for(int f: faces) euclidean_angle_sum += (f-2.) / f;
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}
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void archimedean_tiling::compute_geometry() {
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@ -506,8 +528,11 @@ void connectHeptagons(heptspin hi, heptspin hs) {
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hi.at->c.connect(hi.spin, hs);
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auto p = current.get_adj(hi);
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if(current.tilegroup[p.first] != current.tilegroup[id_of(hs.at)])
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if(current.tilegroup[p.first] != current.tilegroup[id_of(hs.at)]) {
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printf("should merge %d %d\n", p.first, id_of(hs.at));
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current.make_match(p.first, p.second, id_of(hs.at), hs.spin + parent_index_of(hs.at));
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current.regroup();
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}
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// heptagon *hnew = build_child(h, d, get_adj(h, d).first, get_adj(h, d).second);
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}
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@ -669,8 +694,10 @@ void archimedean_tiling::parse() {
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have_ph = false;
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while(true) {
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if(peek() == ')' || peek() == '^' || (peek() == '(' && isize(faces)) || peek() == 0) break;
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else if((peek() == 'L' || peek() == 'l') && faces.size())
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else if((peek() == 'L') && faces.size())
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nflags.back() |= sfLINE, have_line = true, at++;
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else if((peek() == 'l') && faces.size())
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nflags.back() |= sfSEMILINE, have_line = true, at++;
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else if((peek() == 'H' || peek() == 'h') && faces.size())
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nflags.back() |= sfPH, have_ph = true, at++;
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else if(isnumber()) faces.push_back(read_number()), nflags.push_back(0);
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@ -830,29 +857,33 @@ vector<pair<string, int> > samples = {
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/* hyperbolic ones */
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{"(4,4,4,4,4)", cHyperRegular},
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{"(4,4,4,4,4,4)", cHyperRegular},
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{"(5,5,5,5)", cHyperRegular},
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{"(7,7,7)", cHyperRegular},
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{"(8,8,8)", cHyperRegular},
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{"(7,6,6)", cHyperSemi},
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{"(3,3,3,3,7)(1,2)(0,4)(3)", cHyperSemi},
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{"(3HL,6,6,6)(1,0)[2](3)", cHyperSemi},
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{"(3,4,4,4,4)", cHyperSemi},
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{"(3,4,4,4,4) (0 1)[2 3](4)", cHyperSemi},
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{"(3,4,4L,4L,4)", cHyperSemi}, // buggy
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{"(3l,4l,4,4,4) (0 1)[2 3](4)", cHyperSemi},
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{"(3,4,4,4,4) (0 1)(2)(3)(4)", cHyperSemi},
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{"(6,6,3,3,3) (0 2)(1)(3)(4)", cHyperSemi},
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{"(3,4,4L,4L,4L,4)", cHyperSemi},
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{"(6,6,3L,3L,3L) (0 2)(1)(3)(4)", cHyperSemi},
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{"(5,3,5,3,3) (0 1)(2 3)(4)", cHyperSemi},
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{"(4,3,3,3,3,3) (0 1)(2 3)(4 5)", cHyperSemi},
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{"(3,5,5,5,5,5) (0 1)[2 3](4)(5)", cHyperSemi},
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{"(3l,5l,5,5,5,5) (0 1)[2 3](4)(5)", cHyperSemi},
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{"(3,5,5,5,5,5) (0 1)(2 4)(3 5)", cHyperSemi},
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{"(3,5,5,5,5,5) (0 1)(2 4)[3 5]", cHyperSemi},
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{"(3,5,5,5,5,5) (0 1)[2 4](3)(5)", cHyperSemi},
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{"(3l,5l,5,5,5,5) (0 1)(2 4)[3 5]", cHyperSemi},
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{"(3l,5l,5,5,5,5) (0 1)[2 4](3)(5)", cHyperSemi},
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{"(3,5,5,5,5,5) (0 1)(2)(3)(4)(5)", cHyperSemi},
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/* with digons */
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{"(2,3,3,3,3,3) (2,3) (4,5)", cWeird},
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{"(6,6)", cWeird},
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{"(2,2)", cWeird},
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{"(2,2,2,2,2,2)", cWeird}
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{"(2,2,2,2,2,2)", cWeird},
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{"(6,6,2)", cWeird},
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{"(6,6,2,2)", cWeird},
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};
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int lastsample = 0;
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@ -1098,7 +1098,7 @@ land_validity_t& land_validity(eLand l) {
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}
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if(archimedean) {
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if(among(l, laPower, laZebra, laWineyard) && arcm::current.have_ph) return lv::pattern_defined;
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if(among(l, laPower, laZebra, laWineyard) && arcm::current.have_line) return lv::pattern_defined;
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// horocycles not implemented
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if(isCyclic(l)) return not_implemented;
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}
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