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hyperrogue/rogueviz/nilrider/solver.cpp

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2022-04-30 10:04:50 +00:00
namespace nilrider {
void level::solve() {
ld xunit = .25, yunit = .25, eunit = xunit * yunit / 2;
struct edge {
int id;
int dz;
ld zval1;
ld length;
};
struct vertex {
int id;
int x, y;
ld zval;
hyperpoint where;
bool goal;
map<int, pair<ld, pair<int, int> > > visited;
vector<edge> edges;
};
map<pair<int, int>, int> xy_to_id;
vector<vertex> vertices;
auto getpt = [&] (int x, int y) {
hyperpoint p = point31(start.where[0] + x * xunit, start.where[1] + y * yunit, 0);
p[2] = surface(p);
return p;
};
auto get_id = [&] (int x, int y) {
if(xy_to_id.count({x, y}))
return xy_to_id[{x, y}];
else {
int id = isize(vertices);
xy_to_id[{x,y}] = id;
vertices.emplace_back();
auto& b = vertices.back();
b.where = getpt(x, y);
b.id = id;
b.x = x; b.y = y;
return id;
}
};
get_id(0, 0);
transmatrix Rstart = gpushxto0(vertices[0].where);
int tY = isize(map_tiles);
int tX = isize(map_tiles[0]);
for(int id=0; id<isize(vertices); id++) {
auto& v = vertices[id];
/* we need to copy because getpt may invalidate v */
auto x0 = v.x;
auto y0 = v.y;
auto point0 = v.where;
ld rtx0 = ilerp(minx, maxx, point0[0]) * tX;
ld rty0 = ilerp(miny, maxy, point0[1]) * tY;
int tx = floor(rtx0);
int ty = floor(rty0);
char ch = map_tiles[ty][tx];
v.goal = ch == '*';
v.zval = (Rstart * point0)[2];
for(int dx=-2; dx<=2; dx++)
for(int dy=-2; dy<=2; dy++) if(dx%2 || dy%2) {
int x1 = x0 + dx;
int y1 = y0 + dy;
edge e;
e.dz = (x1 + x1) * (y1 - y0);
hyperpoint point1 = getpt(x1, y1);
e.zval1 = (Rstart * point1)[2];
ld rtx1 = ilerp(minx, maxx, point1[0]) * tX;
ld rty1 = ilerp(miny, maxy, point1[1]) * tY;
int txmin = floor(min(rtx0, rtx1) - 1e-3);
int txmax = floor(max(rtx0, rtx1) + 1e-3);
int tymin = floor(min(rty0, rty1) - 1e-3);
int tymax = floor(max(rty0, rty1) + 1e-3);
if(txmin < 0 || tymin < 0 || txmax >= tX || tymax >= tY) continue;
bool bad = false;
for(int tyi=tymin; tyi<=tymax; tyi++)
for(int txi=txmin; txi<=txmax; txi++)
if(among(map_tiles[tyi][txi], '!', 'r')) bad = true;
if(bad) continue;
hyperpoint rpoint = gpushxto0(point1) * point0;
rpoint[2] -= rpoint[0] * rpoint[1] / 2;
e.length = hypot_d(3, rpoint);
e.id = get_id(x1, y1);
vertices[id].edges.push_back(e);
println(hlog, "edge from ", id, " to ", e.id);
}
}
std::priority_queue<pair<ld, pair<int, int> > > dijkstra_queue;
auto visit = [&] (ld nt, int id, int z, int bid, int bz) {
auto& t = vertices[id].visited[z];
if(t.first == 0 || t.first > nt) {
t.first = nt;
t.second = {bid, bz};
pair<ld, pair<int, int> > d = {-nt, {id, z}};
dijkstra_queue.emplace(d);
}
};
visit(1e-15, 0, 0, 0, 0); /* more than 0 to mark it */
// h[0] * h[1] / 2 yields 0
int step = 0;
while(!dijkstra_queue.empty()) {
auto q = dijkstra_queue.top();
dijkstra_queue.pop();
ld t0 = -q.first;
int id0 = q.second.first;
int z0 = q.second.second;
auto& v = vertices[id0];
if(step % 10000 == 0) println(hlog, t0, " : ", tie(id0, z0), " edges = ", isize(v.edges));
step++;
if(v.goal) {
println(hlog, "reached the goal in time ", t0);
vector<hyperpoint> positions;
while(id0 || z0) {
println(hlog, "z = ", z0);
positions.emplace_back(vertices[id0].where);
auto& b = vertices[id0].visited[z0];
id0 = b.second.first;
z0 = b.second.second;
}
positions.emplace_back(vertices[0].where);
reverse(positions.begin(), positions.end());
println(hlog, positions);
plan.clear();
for(auto pos: positions) {
plan.emplace_back(pos, hpxy(0, 0));
}
return;
}
for(auto& e: v.edges) {
int z1 = z0 + e.dz;
ld energy0 = z0 * eunit - v.zval;
ld energy1 = z1 * eunit - e.zval1;
if(energy0 < -1e-6) continue;
if(energy0 < 0) energy0 = 0;
if(energy1 < -1e-6) continue;
if(energy1 < 0) energy1 = 0;
ld t1 = t0 + e.length / (sqrt(energy0) + sqrt(energy1));
visit(t1, e.id, z1, id0, z0);
}
// exit(1);
}
println(hlog, "failed to reach the goal!");
exit(1);
}
}