Example #1
0
def rotations_faces(cube):
  U = cube.copy();
  N = t3d.rotate(cube, axis=0, steps=1);
  W = t3d.rotate(cube, axis=1, steps=1);
  UNW = [U,N,W];
  DSE = [t3d.reflect(X) for X in UNW];
  return UNW + DSE;
Example #2
0
def rotations_nodes(cube):
  UNW = cube.copy();
  UNE = t3d.rotate(cube, axis=2,steps=1);
  USE = t3d.rotate(cube, axis=2,steps=2);
  USW = t3d.rotate(cube, axis=2,steps=3);
  R = [t3d.reflect(X) for X in [UNW,UNE,USE,USW]];
  return [UNW,UNE, USE,USW] + R
Example #3
0
def rotations_edges(cube):
  UN = cube.copy();
  UE = t3d.rotate(cube, axis=2, steps=1);
  US = t3d.rotate(cube, axis=2, steps=2); 
  UW = t3d.rotate(cube, axis=2, steps=3); 
  NW = t3d.rotate(cube, axis=1, steps=3); 
  NE = t3d.rotate(cube, axis=1, steps=1);  
  R = [t3d.reflect(X) for X in [UN,UE,US,UW,NW,NE]];
  return [UN,UE,US,UW,NW,NE] + R;
Example #4
0
def rotations_node_faces(cube):
  U_UNW = cube.copy();                       #U1
  U_UNE = t3d.rotate(cube, axis=2, steps=1); #U3
  U_USE = t3d.rotate(cube, axis=2, steps=2); #U5
  U_USW = t3d.rotate(cube, axis=2, steps=3); #U7
  
  Us = [U_UNW, U_UNE, U_USE, U_USW];
  Ns = [t3d.rotate(X, axis=0, steps=1) for X in Us]; # N7. N1, N3, N5
  Ws = [t3d.rotate(X, axis=1, steps=1) for X in Us]; # W3, W1, W7, W5

  UNWs = Us + Ns + Ws;
  DSEs = [t3d.reflect(X) for X in UNWs];
  
  return UNWs + DSEs;