class Solver: def __init__(self, cube): self.cube = cube self.algorithm = Algorithm(cube)
def solve(self): self.algorithm.f2l() self.algorithm.oll() self.algorithm.pll() nxnxn rubik 39scube algorithm github python full
def f2l(self): # F2L step for i in range(self.cube.n - 1): for j in range(self.cube.n - 1): # Pair and orient pieces pass class Solver: def __init__(self, cube): self
def get_piece(self, x, y, z): return self.cube[x, y, z] class Solver: def __init__(self
The Rubik's Cube, a puzzle that has fascinated and frustrated people for decades, comes in various sizes, including the 3x3x3, 4x4x4, and NxNxN. While the 3x3x3 cube is the most well-known, the NxNxN cube, also known as the "super cube," offers an even greater challenge. In this article, we'll explore how to solve the NxNxN Rubik's Cube using Python, focusing on the algorithm and implementation.