rc.rotate_cube(Y_DOWN) elif (key == "l"): mf.message("LEFT") rc.rotate_cube(X_LEFT) elif (key == "r"): mf.message("RIGHT") rc.rotate_cube(X_RIGHT) elif (key == "c"): mf.message("CLOCKWISE") rc.rotate_cube(Z_CLOCKWISE) elif (key == "a"): mf.message("ANTICLOCKWISE") rc.rotate_cube(Z_ANTICLOCKWISE) elif (key == "b"): mf.message("Rotating bottom edge clockwise") rc.rotate_edge(53, CLOCKWISE) elif (key == "m"): mf.message("Muddling cube with 20 random moves") for n in range(20): rc.rotate_edge((random.randint(0, 5) * 9) + 8, random.randint(0, 1)) elif (key == "1"): rc.rotate_top_2_layers(ANTICLOCKWISE) elif (key == "2"): rc.rotate_bottom_2_layers(CLOCKWISE) elif (key == "3"): rc.rotate_horizontal_middle(X_RIGHT) elif (key == "s"): solve_layer1_edges() mf.message( "Press any key. Solve_layer1_edges() has completed")
def flip_edges(): rc.rotate_cube(Y_DOWN) rc.rotate_cube(Y_DOWN) flipflop = 0 for one2345 in (1, 2, 3, 4, 5): mf.message( "flip_edges inner loop with count of %d. Hit a key to continue" % (one2345)) if (rc.get_colour(5) != rc.get_colour(8)): if (flipflop == 0): flipflop = 1 rc.rotate_vertical_middle(Y_DOWN) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_vertical_middle(Y_UP) rc.rotate_edge(53, CLOCKWISE) rc.rotate_vertical_middle(Y_DOWN) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_vertical_middle(Y_UP) elif (flipflop == 1): flipflop = 0 rc.rotate_vertical_middle(Y_DOWN) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_vertical_middle(Y_UP) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_vertical_middle(Y_DOWN) rc.rotate_edge(53, CLOCKWISE) rc.rotate_vertical_middle(Y_UP) rc.rotate_edge(8, CLOCKWISE)
def reposition_l3_corners(): rc.rotate_cube(Y_DOWN) rc.rotate_cube(Y_DOWN) count1 = 0 # This is just an easy way of comparing two sets of corner colours which may be in # a different order to see if they are the same # # Originally implemented as local function, but switched to lambda # def return_corner_hash( a, b, c ): # return ( ( rc.get_colour( a ) ** 2 ) + ( rc.get_colour( b ) ** 2 ) + ( rc.get_colour( c ) ** 2 ) ) return_corner_hash = lambda a, b, c: ( (rc.get_colour(a)**2) + (rc.get_colour(b)**2) + (rc.get_colour(c)**2)) while (count1 < 50): # 50 is just to prevent the loop running of control. # This function should return long before that. mf.message("Loop with count of %d. Press a key to continue" % (count1)) #t.inkey() # Use a "corner hash" to see whether top right front corner has the correct three # colours, without worrying about rotational orientation. # Most time we don't need this section but there are some combinations which don't # work out without running at least corner rotation. So if we have tried all # four sides without making progress then do a rotation anyway. if (count1 > 4): count1 = 0 mf.message( "Not progressing after a full rotation so continuing to action anyway" ) #t.inkey() rc.rotate_edge(17, ANTICLOCKWISE) rc.rotate_edge(8, CLOCKWISE) rc.rotate_edge(35, CLOCKWISE) rc.rotate_edge(8, ANTICLOCKWISE) rc.rotate_edge(17, CLOCKWISE) rc.rotate_edge(8, CLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(8, ANTICLOCKWISE) mf.message("continuing. Should see inner loop message next") #t.inkey() continue if ((return_corner_hash(26, 35, 8)) == (return_corner_hash(20, 4, 27))): mf.message( "The top right front corner is correctly positioned, so checking further..." ) #t.inkey() if ((return_corner_hash(26, 17, 8)) == (return_corner_hash(18, 6, 11))): if ((return_corner_hash(44, 35, 8)) == (return_corner_hash(36, 2, 29))): # Reaching this point means three corners are in the location, which means # the fourth must be too. So no work to do. Return. mf.message( "all corners are located correctly, so returning") #t.inkey() return elif ((return_corner_hash(26, 17, 8)) != (return_corner_hash(18, 6, 11))): mf.message( "26, 17, 8 does not match 18, 6, 11 so continuing to next check" ) if ((return_corner_hash(44, 35, 8)) != (return_corner_hash(36, 2, 29))): mf.message( "44, 35, 8 does not match 32, 2, 29, so continuing to action" ) # Reaching here means that the front right hand top corner is the only # correctly positioned corner. So do a corner rotation. mf.message( "Left front top and right back top are wrong, so running the correction" ) #t.inkey() rc.rotate_edge(17, ANTICLOCKWISE) rc.rotate_edge(8, CLOCKWISE) rc.rotate_edge(35, CLOCKWISE) rc.rotate_edge(8, ANTICLOCKWISE) rc.rotate_edge(17, CLOCKWISE) rc.rotate_edge(8, CLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(8, ANTICLOCKWISE) mf.message( "continuing. Should see inner loop message next") #t.inkey() continue mf.message("Still nothing happening here so rotating whole cube") #t.inkey() rc.rotate_cube(X_RIGHT) count1 += 1
def rotate_l3_edges(): rc.rotate_cube(Y_DOWN) rc.rotate_cube(Y_DOWN) count1 = 0 while (count1 < 50): # 50 is just to prevent the loop running of control. # This function should return long before that. mf.message("Outer loop. Press a key to continue") #t.inkey() count2 = 0 while (count2 <= 4): mf.message( "Inner loop with count of %d. Press a key to continue" % (count2)) #t.inkey() # We are looking for an edge which is correctly aligned with its centre if (rc.get_colour(23) == rc.get_colour(26)): mf.message("23 and 26 match") #t.inkey() # If two other edges are also aligned then that means all four must # be good, in which case there is nothing to do. if ((rc.get_colour(32) == rc.get_colour(35)) and (rc.get_colour(14) == rc.get_colour(17))): mf.message("all edges match, so returning") #t.inkey() return # We are looking for an orientation which has one edge aligned with its centre # but its two rotationally adjacent edges are not aligned. It doesn't matter # the opposite edge elif ((rc.get_colour(32) != rc.get_colour(35)) and (rc.get_colour(14) != rc.get_colour(17))): mf.message( "Neither 32 & 35 nor 14 & 17 match, so running the correction" ) #t.inkey() rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(35, CLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(35, CLOCKWISE) mf.message( "continuing. Should see inner loop message next") #t.inkey() continue mf.message("Nothing happening here so rotating bottom edge") #t.inkey() rc.rotate_edge(53, CLOCKWISE) count2 += 1 mf.message("Still nothing happening here so rotating whole cube") #t.inkey() rc.rotate_cube(X_RIGHT) count1 += 1
def spin_l3_corners(): count1 = 0 while (count1 < 4): mf.message("Loop with count of %d. Press a key to continue" % (count1)) #t.inkey() if (rc.get_colour(20) == rc.get_colour(19)): mf.message( "20 == 19, so corner looks good. Press a key to continue") #t.inkey() elif (rc.get_colour(20) == rc.get_colour(8)): # Need to be rotated clockwise mf.message( "20 == 8, so rotate clockwise. Press a key to continue") #t.inkey() rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(35, CLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(35, CLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) else: # Need to be rotated anticlockwise mf.message( "20 != 8, so must need rotating anticlockwise. Press a key to continue" ) #t.inkey() rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(35, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(35, CLOCKWISE) mf.message("Still nothing happening here so rotating whole cube") #t.inkey() rc.rotate_edge(8, CLOCKWISE) count1 += 1 mf.message( "Exiting after checking/correcting all four faces. Press a key")
def solve_layer1_edges(): mf.message("Top centre piece appears to be: %d with colour: %s" % (rc.relative_cube[8], rc.COLOUR_DESCRIPTIONS[rc.get_colour(8)])) mf.message("The top seems to be centred with colour: %s" % (rc.COLOUR_DESCRIPTIONS[rc.get_colour(8)])) good_edges = rc.get_edges_of_colour(8, rc.get_colour(8)) for e in good_edges: mf.message("This edge piece seems to have the right colour %d" % (e)) count = 0 if (len(good_edges) != 0): mf.message( "It looks like at least one edge of the right colour is present on top" ) while (rc.get_colour(5) != rc.get_colour(8)): rc.rotate_cube(X_LEFT) mf.message("We should have a good coloured edge at position 5") while (rc.get_colour(19) != rc.get_colour(26)): rc.rotate_horizontal_middle(X_LEFT) mf.message( "And now the edge at position 5 should match on both colours") else: mf.message( "It looks like no edges of the right colour are present on top") # Reaching here means that if there are edge squares of the correct colour on top # then one should be at the top front. # We should now rotate the horizontal middle so that the top front edge matches # the correct centre colour at front as well as top. # MARK #1 mf.message("Reached MARK #1. len(good_edges) = %d." % (len(good_edges))) count = 0 while ((len(rc.get_edges_of_colour(8, rc.get_colour(8)))) < 4): mf.message("Length of good_edges is: %d" % (len(good_edges))) if (count > 40): mf.message("count is too high. Breaking from loop") break count += 1 while (rc.get_colour(8) == rc.get_colour(3)): mf.message("while loop 2") rc.rotate_cube(X_LEFT) mf.message("Square 3 should not be the right colour") # At this point we should have a top right edge of the wrong colour which can be swapped out while (rc.get_colour(46) == rc.get_colour(8)): if (rc.get_colour(32) == rc.get_colour(35)): rc.rotate_edge(35, CLOCKWISE) rc.rotate_edge(35, CLOCKWISE) break else: rc.rotate_top_2_layers(CLOCKWISE) while (rc.get_colour(48) == rc.get_colour(8)): if (rc.get_colour(41) == rc.get_colour(44)): rc.rotate_edge(44, CLOCKWISE) rc.rotate_edge(44, CLOCKWISE) break else: rc.rotate_top_2_layers(CLOCKWISE) while (rc.get_colour(50) == rc.get_colour(8)): if (rc.get_colour(14) == rc.get_colour(17)): rc.rotate_edge(17, CLOCKWISE) rc.rotate_edge(17, CLOCKWISE) break else: rc.rotate_top_2_layers(CLOCKWISE) while (rc.get_colour(52) == rc.get_colour(8)): if (rc.get_colour(23) == rc.get_colour(26)): rc.rotate_edge(26, CLOCKWISE) rc.rotate_edge(26, CLOCKWISE) break else: rc.rotate_top_2_layers(CLOCKWISE) if (rc.get_colour(21) == rc.get_colour(8)): mf.message("matched at 21") # The next if section ensures that piece we are putting into the top layer also matches on its other edge if (rc.get_colour(34) != rc.get_colour(35)): rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(35, CLOCKWISE) else: rc.rotate_edge(35, CLOCKWISE) continue elif (rc.get_colour(43) == rc.get_colour(8)): mf.message("matched at 43") # The next if section ensures that piece we are putting into the top layer also matches on its other edge if (rc.get_colour(30) != rc.get_colour(35)): rc.rotate_edge(35, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) else: rc.rotate_edge(35, ANTICLOCKWISE) elif (rc.get_colour(23) == rc.get_colour(8)): mf.message("matched at 23") rc.rotate_edge(26, ANTICLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(26, CLOCKWISE) rc.rotate_edge(35, CLOCKWISE) elif (rc.get_colour(25) == rc.get_colour(8)): mf.message("matched at 25") rc.rotate_edge(17, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(17, ANTICLOCKWISE) elif (rc.get_colour(39) == rc.get_colour(8)): mf.message("matched at 39") rc.rotate_edge(17, ANTICLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(17, CLOCKWISE) elif (rc.get_colour(12) == rc.get_colour(8)): mf.message("matched at 12") rc.rotate_edge(26, ANTICLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(26, CLOCKWISE) elif (rc.get_colour(16) == rc.get_colour(8)): mf.message("matched at 16") rc.rotate_edge(44, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(44, ANTICLOCKWISE) elif (rc.get_colour(34) == rc.get_colour(8)): mf.message("matched at 34") rc.rotate_edge(26, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(26, ANTICLOCKWISE) elif (rc.get_colour(30) == rc.get_colour(8)): mf.message("matched at 30") rc.rotate_edge(44, ANTICLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(44, CLOCKWISE) elif (rc.get_colour(19) == rc.get_colour(8)): mf.message("matched at 19") rc.rotate_edge(26, CLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(35, CLOCKWISE) rc.rotate_edge(26, ANTICLOCKWISE) elif (rc.get_colour(37) == rc.get_colour(8)): mf.message("matched at 37") rc.rotate_edge(44, ANTICLOCKWISE) rc.rotate_edge(35, CLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(44, CLOCKWISE) elif (rc.get_colour(28) == rc.get_colour(8)): mf.message("matched at 35") rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(26, CLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(26, ANTICLOCKWISE) rc.rotate_edge(35, CLOCKWISE) elif (rc.get_colour(10) == rc.get_colour(8)): mf.message("matched at 10") rc.rotate_edge(17, CLOCKWISE) rc.rotate_edge(26, ANTICLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(26, CLOCKWISE) rc.rotate_edge(17, ANTICLOCKWISE) else: rc.rotate_edge(53, CLOCKWISE) continue mf.message("Reached MARK #2. len(good_edges) = %d." % (len(good_edges)))
def solve_layer1_corners(): count1 = 0 flipflopflap = 0 while (True): count1 += 1 mf.message("Press a key. Outer while") if (count1 > 4): mf.message("Too many iterations on outer loop. Exiting") break top_colour = rc.get_colour(8) count2 = 0 while (not ((rc.get_colour(6) == top_colour) and (rc.get_colour(11) == rc.get_colour(17)) and (rc.get_colour(4) == top_colour) and (rc.get_colour(27) == rc.get_colour(35)) and (rc.get_colour(0) == top_colour) and (rc.get_colour(9) == rc.get_colour(17)) and (rc.get_colour(2) == top_colour) and (rc.get_colour(29) == rc.get_colour(35)))): count2 += 1 if (count2 > 50): mf.message("Too many iterations. Exiting") break if (rc.get_colour(22) == top_colour): # Front bottom right colour matches the top colour mf.message("found the right colour at 22") if (rc.get_colour(33) == rc.get_colour(35)): # And it is a perfect match for the front top right corner. mf.message("found a match at 22") rc.rotate_edge(26, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(26, ANTICLOCKWISE) mf.message("here 1") continue elif (rc.get_colour(33) == rc.get_colour(26)): # And it is a perfect match for the front top left corner mf.message("matches on the other side so moving to top") rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(17, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(17, ANTICLOCKWISE) mf.message("here 2") continue if (rc.get_colour(24) == top_colour): # Front bottom left colour matches the top colour mf.message("found the right colour at 24") if (rc.get_colour(13) == rc.get_colour(17)): # And it is a perfect match for the front top left corner. mf.message("found a match at 24. Putting in place") rc.rotate_edge(26, ANTICLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(26, CLOCKWISE) mf.message("here 3") continue elif (rc.get_colour(13) == rc.get_colour(26)): # And it is a perfect match for the front top right corner mf.message("matches on the other side so moving to top") rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(35, CLOCKWISE) mf.message("here 4") continue if (rc.get_colour(33) == top_colour): # Right side bottom left corner mf.message("Right side bottom left corner") if (rc.get_colour(22) == rc.get_colour(17)): mf.message( "Right side bottom left corner is a perfect match for front top left corner" ) rc.rotate_edge(17, CLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(17, ANTICLOCKWISE) mf.message("here 5") continue elif (rc.get_colour(22) == rc.get_colour(26)): mf.message( "Right side bottom left corner is a perfect match for front top right corner" ) rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(35, CLOCKWISE) mf.message("here 6") continue if (rc.get_colour(13) == top_colour): # Left side bottom left corner mf.message("left side bottom left corner") if (rc.get_colour(51) == rc.get_colour(26)): mf.message( "Left side bottom right corner is a perfect match for front top right corner" ) rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(35, CLOCKWISE) mf.message("here 7") continue elif (rc.get_colour(24) == rc.get_colour(26)): mf.message( "Left side bottom right corner is a perfect match for front top left corner" ) rc.rotate_edge(17, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(17, ANTICLOCKWISE) mf.message("here 8") continue if (rc.get_colour(45) == top_colour): # Bottom side right front corner mf.message("bottom side right front corner") if (rc.get_colour(33) == rc.get_colour(26)): mf.message( "Bottom right front corner is a perfect match for front top right corner" ) rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(35, CLOCKWISE) rc.rotate_edge(26, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(26, ANTICLOCKWISE) mf.message("here 9") continue elif (rc.get_colour(22) == rc.get_colour(26)): mf.message( "Bottom right front corner is a perfect match for front top left corner" ) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(17, CLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(17, ANTICLOCKWISE) rc.rotate_edge(26, ANTICLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(26, CLOCKWISE) mf.message("here 10") continue if (rc.get_colour(51) == top_colour): # Bottom side left front corner mf.message("bottom side left front corner") if (rc.get_colour(13) == rc.get_colour(26)): mf.message( "Bottom left front corner is a perfect match for front top left corner" ) rc.rotate_edge(17, CLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(17, ANTICLOCKWISE) rc.rotate_edge(26, ANTICLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(26, CLOCKWISE) mf.message("here 11") continue elif (rc.get_colour(24) == rc.get_colour(26)): mf.message( "Bottom left front corner is a perfect match for front top right corner" ) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(35, CLOCKWISE) rc.rotate_edge(26, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(26, ANTICLOCKWISE) mf.message("here 12") continue # Left side top right corner if (rc.get_colour(11) == top_colour): mf.message("left side top right corner") if (rc.get_colour(18) == rc.get_colour(17)): mf.message( "left side top right hand corner is a perfect match for front left top" ) rc.rotate_edge(17, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(17, ANTICLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(17, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(17, ANTICLOCKWISE) mf.message("here 13") continue elif (rc.get_colour(18) == rc.get_colour(26)): mf.message( "left side top right hand corner is a perfect match for front right top" ) rc.rotate_edge(17, CLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(35, CLOCKWISE) rc.rotate_edge(17, ANTICLOCKWISE) mf.message("here 14") continue # Right side top left corner if (rc.get_colour(27) == top_colour): mf.message("right side top left corner") if (rc.get_colour(20) == rc.get_colour(35)): mf.message( "right side top left hand corner is a perfect match for front right top" ) rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(35, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(35, CLOCKWISE) mf.message("here 16") continue elif (rc.get_colour(20) == rc.get_colour(26)): mf.message( "right side top left hand corner is a perfect match for front left top" ) rc.rotate_edge(17, CLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(35, CLOCKWISE) rc.rotate_edge(17, ANTICLOCKWISE) mf.message("here 17") continue # Front left top corner if (rc.get_colour(18) == top_colour): mf.message("front left top corner") if (rc.get_colour(6) == rc.get_colour(17)): mf.message( "Front top left corner needs to be twisted anticlockwise" ) rc.rotate_edge(17, CLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(17, ANTICLOCKWISE) rc.rotate_edge(26, ANTICLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(26, CLOCKWISE) mf.message("here 18") continue elif (rc.get_colour(6) == rc.get_colour(26)): mf.message( "Front top left corner is a match for top layer front right" ) rc.rotate_edge(17, CLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(17, ANTICLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(35, CLOCKWISE) mf.message("here 19") continue # Front right top corner if (rc.get_colour(20) == top_colour): mf.message("front right top corner") if (rc.get_colour(4) == rc.get_colour(35)): mf.message( "Front top right corner needs to be twisted clockwise") rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(35, CLOCKWISE) rc.rotate_edge(26, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(26, ANTICLOCKWISE) mf.message("here 20") continue elif (rc.get_colour(4) == rc.get_colour(26)): mf.message( "Front top right corner is a match for top layer front left" ) rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(35, CLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(17, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(17, ANTICLOCKWISE) mf.message("here 21") continue # Back left top corner - top matches if (rc.get_colour(0) == top_colour): mf.message("back left top corner") if (rc.get_colour(9) == rc.get_colour(26)): mf.message( "Back left top corner matches front left top corner") rc.rotate_edge(17, ANTICLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(17, CLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(17, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(17, ANTICLOCKWISE) mf.message("here 22") continue elif (rc.get_colour(9) == rc.get_colour(35)): mf.message( "Back left top corner matches front right top corner") rc.rotate_edge(17, ANTICLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(17, CLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(26, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(26, ANTICLOCKWISE) mf.message("here 23") continue # Back right top corner - top matches if (rc.get_colour(2) == top_colour): mf.message("back right top corner") if (rc.get_colour(29) == rc.get_colour(26)): mf.message( "Back right top corner matches front right top corner") rc.rotate_edge(35, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(35, CLOCKWISE) mf.message("here 24") continue elif (rc.get_colour(29) == rc.get_colour(17)): mf.message( "Back right top corner matches front left top corner") rc.rotate_edge(35, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(26, ANTICLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(26, CLOCKWISE) mf.message("here 25") continue # Back left top corner - side matches if (rc.get_colour(9) == top_colour): mf.message("left side back top corner") if (rc.get_colour(0) == rc.get_colour(17)): mf.message( "Back left top corner matches front left top corner") rc.rotate_edge(17, ANTICLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(17, CLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(17, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(17, ANTICLOCKWISE) mf.message("here 26") continue elif (rc.get_colour(9) == rc.get_colour(35)): mf.message( "Back left top corner matches front right top corner") rc.rotate_edge(17, ANTICLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(17, CLOCKWISE) rc.rotate_edge(17, CLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(17, ANTICLOCKWISE) mf.message("here 27") continue # Back right top corner - side matches if (rc.get_colour(29) == top_colour): mf.message("right side back top corner") if (rc.get_colour(2) == rc.get_colour(35)): mf.message( "Back right top corner matches front right top corner") rc.rotate_edge(35, CLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(35, CLOCKWISE) mf.message("here 28") continue elif (rc.get_colour(29) == rc.get_colour(17)): mf.message( "Back right top corner matches front left top corner") rc.rotate_edge(35, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(35, CLOCKWISE) mf.message("here 29") # Back right top corner - back matches if (rc.get_colour(36) == top_colour): mf.message("right side back top corner") if (rc.get_colour(29) == rc.get_colour(35)): mf.message( "Back right top corner matches front right top corner") rc.rotate_edge(44, ANTICLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(44, CLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(35, CLOCKWISE) mf.message("here 30") continue elif (rc.get_colour(29) == rc.get_colour(26)): mf.message( "Back right top corner matches front left top corner") rc.rotate_edge(44, ANTICLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(44, CLOCKWISE) rc.rotate_edge(17, CLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(17, ANTICLOCKWISE) mf.message("here 31") continue # Back left top corner - back matches if (rc.get_colour(38) == top_colour): mf.message("left side back top corner") if (rc.get_colour(9) == rc.get_colour(17)): mf.message( "Back left top corner matches front left top corner") rc.rotate_edge(44, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(44, ANTICLOCKWISE) rc.rotate_edge(17, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(17, ANTICLOCKWISE) mf.message("here 32") continue elif (rc.get_colour(9) == rc.get_colour(26)): mf.message( "Back left top corner matches front right top corner") rc.rotate_edge(44, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(44, ANTICLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(35, CLOCKWISE) mf.message("here 33") continue if (flipflopflap == 0): flipflopflap = 1 rc.rotate_cube(X_LEFT) elif (flipflopflap == 1): flipflopflap = 2 rc.rotate_cube(X_LEFT) rc.rotate_cube(X_LEFT) else: rc.rotate_edge(53, ANTICLOCKWISE) flipflopflap = 0 mf.message("bottom of inner loop")
def solve_layer2(): level_of_completion = 0 while (level_of_completion <= 4): level_of_competion = 0 progress_has_been_made = 4 for loop2 in (range(8)): mf.message("press a key to continue from top of inner loop") #t.inkey() if ((rc.get_colour(30) == rc.get_colour(35)) and (rc.get_colour(35) == rc.get_colour(34)) and (rc.get_colour(21) == rc.get_colour(26)) and (rc.get_colour(43) == rc.get_colour(44))): level_of_completion += 1 mf.message("level_of_competion raised to %d" % (level_of_completion)) break else: level_of_completion = 0 mf.message("level_of_completion reset to %d" % (level_of_completion)) if (rc.get_colour(32) == rc.get_colour(35)): if (rc.get_colour(46) == rc.get_colour(26)): mf.message( " 32 & 35 match, and 46 & 26. Proceeding to solve edges. Press a key" ) #t.inkey() rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(35, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(35, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) progress_has_been_made += 1 if (rc.get_colour(46) == rc.get_colour(44)): mf.message( " 32 & 35 match, and 46 & 44. Proceeding to solve edges. Press a key" ) #t.inkey() rc.rotate_edge(35, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(35, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(35, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) progress_has_been_made += 1 ### if (rc.get_colour(17) == rc.get_colour(14)): if (rc.get_colour(50) == rc.get_colour(26)): mf.message( "17 & 14 match, and 50 & 26. Proceeding to solve edges. Press a key" ) #t.inkey() rc.rotate_edge(17, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(17, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(17, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(17, ANTICLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(17, ANTICLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(17, CLOCKWISE) rc.rotate_edge(17, CLOCKWISE) progress_has_been_made += 1 if (rc.get_colour(50) == rc.get_colour(44)): mf.message( "17 & 14 match, and 50 & 44. Proceeding to solve edges. Press a key" ) #t.inkey() rc.rotate_edge(17, ANTICLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(17, ANTICLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(17, ANTICLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(17, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(17, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(17, CLOCKWISE) rc.rotate_edge(17, CLOCKWISE) progress_has_been_made += 1 ### # The following moves are only necessary if we have got into a deadlock if (progress_has_been_made == 0): progress_has_been_made += 1 if ((rc.get_colour(34) == rc.get_colour(53)) or (rc.get_colour(21) == rc.get_colour(53))): mf.message( "Moving a bottom matching piece 21/34. Press a key") #t.inkey() rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(35, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(35, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) continue if ((rc.get_colour(34) == rc.get_colour(26)) and (rc.get_colour(21) == rc.get_colour(35))): mf.message( "Moving a flipped piece from 21/34. Press a key") #t.inkey() rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(35, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(35, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) continue if ((rc.get_colour(30) == rc.get_colour(53)) or (rc.get_colour(43) == rc.get_colour(53))): mf.message( "Moving a bottom matching piece 30/43. Press a key") #t.inkey() rc.rotate_edge(35, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(35, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(35, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) continue if ((rc.get_colour(30) == rc.get_colour(44)) and (rc.get_colour(43) == rc.get_colour(35))): mf.message( "Moving out a piece which is flipped: 30/43. Press a key" ) #t.inkey() rc.rotate_edge(35, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(35, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(35, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) continue if ((rc.get_colour(30) != rc.get_colour(35)) or (rc.get_colour(43) != rc.get_colour(44))): mf.message( "Moving out piece 30/43 because it isn't right. Press a key" ) #t.inkey() rc.rotate_edge(35, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(35, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(35, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) continue if ((rc.get_colour(34) != rc.get_colour(35)) or (rc.get_colour(21) != rc.get_colour(26))): mf.message( "Moving out piece 21/34 because it isn't right. Press a key" ) #t.inkey() rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_edge(35, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(35, CLOCKWISE) rc.rotate_edge(53, CLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) rc.rotate_edge(35, ANTICLOCKWISE) continue ## progress_has_been_made -= 1 rc.rotate_edge(53, ANTICLOCKWISE) rc.rotate_cube(X_LEFT)