// *** METHODS ***
/// <summary>
/// Returns the solution for the transferred Rubik
/// </summary>
/// <param name="cube">Defines the Rubik to be solved</param>
protected virtual void Solve(Rubik cube)
{
Rubik = cube.DeepClone();
Algorithm = new Algorithm();
InitStandardCube();
GetSolution();
RemoveUnnecessaryMoves();
}
protected override void Solve(Rubik cube)
{
Rubik = cube.DeepClone();
_coordCube = ToCoordCube(cube);
this.MaxDepth = 30;
this.TimeOut = 10000;
Algorithm = new Algorithm();
InitStandardCube();
GetSolution();
RemoveUnnecessaryMoves();
}
/// <summary>
/// Returns a solved Rubik
/// </summary>
/// <returns></returns>
public Rubik GenStandardCube()
{
Rubik standardCube = new Rubik();
standardCube.SetFaceColor(CubeFlag.TopLayer, FacePosition.Top, TopColor);
standardCube.SetFaceColor(CubeFlag.BottomLayer, FacePosition.Bottom, BottomColor);
standardCube.SetFaceColor(CubeFlag.RightSlice, FacePosition.Right, RightColor);
standardCube.SetFaceColor(CubeFlag.LeftSlice, FacePosition.Left, LeftColor);
standardCube.SetFaceColor(CubeFlag.FrontSlice, FacePosition.Front, FrontColor);
standardCube.SetFaceColor(CubeFlag.BackSlice, FacePosition.Back, BackColor);
return(standardCube);
}
public static int GetOrientation(Rubik rubik, Cube c)
{
int orientation = 0;
if (c.IsEdge)
{
CubeFlag targetFlags = rubik.GetTargetFlags(c);
Rubik clone = rubik.DeepClone();
if (!targetFlags.HasFlag(CubeFlag.MiddleLayer))
{
while (RefreshCube(clone, c).Position.HasFlag(CubeFlag.MiddleLayer))
clone.RotateLayer(c.Position.X, true);
Cube clonedCube = RefreshCube(clone, c);
Face yFace = clonedCube.Faces.First(f => f.Color == rubik.TopColor || f.Color == rubik.BottomColor);
if (!FacePosition.YPos.HasFlag(yFace.Position))
orientation = 1;
}
else
{
Face zFace = c.Faces.First(f => f.Color == rubik.FrontColor || f.Color == rubik.BackColor);
if (c.Position.HasFlag(CubeFlag.MiddleLayer))
{
if (!FacePosition.ZPos.HasFlag(zFace.Position))
orientation = 1;
}
else
{
if (!FacePosition.YPos.HasFlag(zFace.Position))
orientation = 1;
}
}
}
else if (c.IsCorner)
{
Face face = c.Faces.First(f => f.Color == rubik.TopColor || f.Color == rubik.BottomColor);
if (!FacePosition.YPos.HasFlag(face.Position))
{
if (FacePosition.XPos.HasFlag(face.Position) ^ !((c.Position.HasFlag(CubeFlag.BottomLayer) ^ (c.Position.HasFlag(CubeFlag.FrontSlice) ^ c.Position.HasFlag(CubeFlag.RightSlice)))))
{
orientation = 1;
}
else
orientation = 2;
}
}
return orientation;
}
public DialogParityCheckResult(Rubik rubik, Form parent = null)
{
InitializeComponent();
this.ShowInTaskbar = false;
if (parent != null)
{
this.Owner = parent;
this.StartPosition = FormStartPosition.CenterParent;
}
// Color test
bool colors = Solvability.CorrectColors(rubik);
lblColorTest.Text = colors ? "Passed" : "Failed";
pbColorTest.Image = colors ? Properties.Resources.ok : Properties.Resources.cross_icon;
if (!colors)
{
lblPermutationTest.Text = "Not tested";
lblCornerTest.Text = "Not tested";
lblEdgeTest.Text = "Not tested";
pbCornerTest.Image = Properties.Resources.questionmark;
pbEdgeTest.Image = Properties.Resources.questionmark;
pbPermutationTest.Image = Properties.Resources.questionmark;
lblHeader.Text = "This cube is unsolvable.";
}
else
{
// Permutation parity test
bool permutation = Solvability.PermutationParityTest(rubik);
lblPermutationTest.Text = permutation ? "Passed" : "Failed";
pbPermutationTest.Image = permutation ? Properties.Resources.ok : Properties.Resources.cross_icon;
// Corner parity test
bool corner = Solvability.CornerParityTest(rubik);
lblCornerTest.Text = corner ? "Passed" : "Failed";
pbCornerTest.Image = corner ? Properties.Resources.ok : Properties.Resources.cross_icon;
// Edge parity test
bool edge = Solvability.EdgeParityTest(rubik);
lblEdgeTest.Text = edge ? "Passed" : "Failed";
pbEdgeTest.Image = edge ? Properties.Resources.ok : Properties.Resources.cross_icon;
lblHeader.Text = permutation && corner && edge && colors ? "This cube is solvable." : "This cube is unsolvable.";
}
}
public DialogSolutionFinder(CubeSolver solver, Rubik rubik, Form parent = null)
{
this.solver = solver;
this.InitializeComponent();
if (parent != null)
{
this.Owner = parent;
this.StartPosition = FormStartPosition.CenterParent;
}
this.ShowInTaskbar = false;
this.AddStepLabels(solver);
solver.TrySolveAsync(rubik);
solver.OnSolutionStepCompleted += this.solver_OnSolutionStepCompleted;
solver.OnSolutionError += this.solver_OnSolutionError;
this.stepLabels[this.currentIndex].Text = "In progress ...";
this.stepImgs[this.currentIndex].Image = Properties.Resources.refresh;
}
/// <summary>
/// Returns the Orientation
/// </summary>
/// <param name="rubik"></param>
/// <param name="c"></param>
/// <returns></returns>
public static Orientation GetOrientation(Rubik rubik, Cube c)
{
var orientation = Orientation.Correct;
if (c.IsEdge)
{
var targetFlags = rubik.GetTargetFlags(c);
var clone = rubik.DeepClone();
if (!targetFlags.HasFlag(CubeFlag.MiddleLayer))
{
while (RefreshCube(clone, c).Position.HasFlag(CubeFlag.MiddleLayer)) clone.RotateLayer(c.Position.X, true);
var clonedCube = RefreshCube(clone, c);
var yFace = clonedCube.Faces.First(f => f.Color == rubik.TopColor || f.Color == rubik.BottomColor);
if (!YPos.HasFlag(yFace.Position)) orientation = Orientation.Clockwise;
}
else
{
var zFace = c.Faces.First(f => f.Color == rubik.FrontColor || f.Color == rubik.BackColor);
if (c.Position.HasFlag(CubeFlag.MiddleLayer))
{
if (!ZPos.HasFlag(zFace.Position)) orientation = Orientation.Clockwise;
}
else
{
if (!YPos.HasFlag(zFace.Position)) orientation = Orientation.Clockwise;
}
}
}
else if (c.IsCorner)
{
var face = c.Faces.First(f => f.Color == rubik.TopColor || f.Color == rubik.BottomColor);
if (YPos.HasFlag(face.Position))
{
return orientation;
}
orientation = XPos.HasFlag(face.Position) ^ !(c.Position.HasFlag(CubeFlag.BottomLayer) ^ (c.Position.HasFlag(CubeFlag.FrontSlice) ^ c.Position.HasFlag(CubeFlag.RightSlice))) ? Orientation.CounterClockwise : Orientation.Clockwise;
}
return orientation;
}
/// <summary>
/// Initializes a new instance of the CubeModel class
/// </summary>
/// <param name="rubik">Rubik's Cube that has to be drawn</param>
public CubeModel(Rubik rubik)
{
this.Rubik = rubik;
this.Rotation = new double[] { 0, 0, 0 };
this.Moves = new Queue<RotationInfo>();
this.MouseHandling = true;
this.DrawingMode = RubiksCubeLib.CubeModel.DrawingMode.ThreeDimensional;
this.State = "Ready";
this.RotationSpeed = 250;
InitColorPicker();
ResetLayerRotation();
InitSelection();
InitRenderer();
InitializeComponent();
SetStyle(ControlStyles.AllPaintingInWmPaint, true);
SetStyle(ControlStyles.DoubleBuffer, true);
SetStyle(ControlStyles.SupportsTransparentBackColor, true);
SetStyle(ControlStyles.UserPaint, true);
}
private CoordCube ToCoordCube(Rubik rubik)
{
// get corner perm and orientation
string[] corners = new string[N_CORNER] { "UFR", "UFL", "UBL", "URB", "DFR", "DFL", "DBL", "DRB" };
byte[] cornerPermutation = new byte[N_CORNER];
byte[] cornerOrientation = new byte[N_CORNER];
for (int i = 0; i < N_CORNER; i++)
{
CubeFlag pos = CubeFlagService.Parse(corners[i]);
Cube matchingCube = rubik.Cubes.First(c => c.Position.Flags == pos);
CubeFlag targetPos = rubik.GetTargetFlags(matchingCube);
cornerOrientation[i] = (byte)Solvability.GetOrientation(rubik, matchingCube);
for (int j = 0; j < N_CORNER; j++)
if (corners[j] == CubeFlagService.ToNotationString(targetPos))
cornerPermutation[i] = (byte)(j + 1);
}
// get edge perm and orientation
string[] edges = new string[N_EDGE] { "UR", "UF", "UL", "UB", "DR", "DF", "DL", "DB", "FR", "FL", "BL", "RB" };
byte[] edgePermutation = new byte[N_EDGE];
byte[] edgeOrientation = new byte[N_EDGE];
for (int i = 0; i < N_EDGE; i++)
{
CubeFlag pos = CubeFlagService.Parse(edges[i]);
Cube matchingCube = rubik.Cubes.Where(c => c.IsEdge).First(c => c.Position.Flags.HasFlag(pos));
CubeFlag targetPos = rubik.GetTargetFlags(matchingCube);
edgeOrientation[i] = (byte)Solvability.GetOrientation(rubik, matchingCube);
for (int j = 0; j < N_EDGE; j++)
if (CubeFlagService.ToNotationString(targetPos).Contains(edges[j]))
edgePermutation[i] = (byte)(j + 1);
}
byte[] cornerInv = CoordCube.ToInversions(cornerPermutation);
byte[] edgeInv = CoordCube.ToInversions(edgePermutation);
return new CoordCube(cornerPermutation, edgePermutation, cornerOrientation, edgeOrientation);
}
// **** METHODS ****
public static Rubik FromPattern(Pattern pattern)
{
Rubik rubik = new Rubik();
foreach (PatternItem item in pattern.Items)
{
if (CubePosition.IsCorner(item.CurrentPosition.Flags))
{
bool xyzCorrect = !((item.CurrentPosition.Y == CubeFlag.TopLayer ^ (item.CurrentPosition.X == CubeFlag.RightSlice ^ item.CurrentPosition.Z == CubeFlag.FrontSlice))
^ (CubeFlagService.FirstYFlag(item.TargetPosition) == CubeFlag.TopLayer ^ (CubeFlagService.FirstXFlag(item.TargetPosition) == CubeFlag.RightSlice ^ CubeFlagService.FirstZFlag(item.TargetPosition) == CubeFlag.FrontSlice)));
if (item.CurrentOrientation == Orientation.Correct)
{
rubik.SetFaceColor(item.CurrentPosition.Flags, CubeFlagService.ToFacePosition(item.CurrentPosition.Y), rubik.GetSliceColor(CubeFlagService.FirstYFlag(item.TargetPosition)));
FacePosition x = xyzCorrect ? CubeFlagService.ToFacePosition(item.CurrentPosition.X) : CubeFlagService.ToFacePosition(item.CurrentPosition.Z);
FacePosition z = xyzCorrect ? CubeFlagService.ToFacePosition(item.CurrentPosition.Z) : CubeFlagService.ToFacePosition(item.CurrentPosition.X);
rubik.SetFaceColor(item.CurrentPosition.Flags, x, rubik.GetSliceColor(CubeFlagService.FirstXFlag(item.TargetPosition)));
rubik.SetFaceColor(item.CurrentPosition.Flags, z, rubik.GetSliceColor(CubeFlagService.FirstZFlag(item.TargetPosition)));
}
else
{
bool corr = (item.CurrentPosition.X == CubeFlag.RightSlice ^ item.CurrentPosition.Z == CubeFlag.BackSlice) ^ item.CurrentPosition.Y == CubeFlag.BottomLayer;
FacePosition x = (corr ^ item.CurrentOrientation == Orientation.Clockwise) ? CubeFlagService.ToFacePosition(item.CurrentPosition.X) : CubeFlagService.ToFacePosition(item.CurrentPosition.Y);
FacePosition y = (corr ^ item.CurrentOrientation == Orientation.Clockwise) ? CubeFlagService.ToFacePosition(item.CurrentPosition.Z) : CubeFlagService.ToFacePosition(item.CurrentPosition.X);
FacePosition z = (corr ^ item.CurrentOrientation == Orientation.Clockwise) ? CubeFlagService.ToFacePosition(item.CurrentPosition.Y) : CubeFlagService.ToFacePosition(item.CurrentPosition.Z);
rubik.SetFaceColor(item.CurrentPosition.Flags, x, rubik.GetSliceColor(CubeFlagService.FirstXFlag(item.TargetPosition)));
rubik.SetFaceColor(item.CurrentPosition.Flags, y, rubik.GetSliceColor(CubeFlagService.FirstYFlag(item.TargetPosition)));
rubik.SetFaceColor(item.CurrentPosition.Flags, z, rubik.GetSliceColor(CubeFlagService.FirstZFlag(item.TargetPosition)));
}
}
if (CubePosition.IsEdge(item.CurrentPosition.Flags))
{
CubeFlag flagOne = CubeFlagService.FirstNotInvalidFlag(item.CurrentPosition.Flags, CubeFlag.MiddleLayer | CubeFlag.MiddleSlice | CubeFlag.MiddleSliceSides);
FacePosition faceOne = CubeFlagService.ToFacePosition(flagOne);
FacePosition faceTwo = CubeFlagService.ToFacePosition(CubeFlagService.FirstNotInvalidFlag(item.CurrentPosition.Flags, CubeFlag.MiddleLayer | CubeFlag.MiddleSlice | CubeFlag.MiddleSliceSides | flagOne));
CubeFlag tFlagOne = CubeFlagService.FirstNotInvalidFlag(item.TargetPosition, CubeFlag.MiddleLayer | CubeFlag.MiddleSlice | CubeFlag.MiddleSliceSides);
rubik.SetFaceColor(item.CurrentPosition.Flags, faceOne, rubik.GetSliceColor(tFlagOne));
rubik.SetFaceColor(item.CurrentPosition.Flags, faceTwo, rubik.GetSliceColor(CubeFlagService.FirstNotInvalidFlag(item.TargetPosition, CubeFlag.MiddleLayer | CubeFlag.MiddleSlice | CubeFlag.MiddleSliceSides | tFlagOne)));
if (Solvability.GetOrientation(rubik, rubik.Cubes.First(c => c.Position.Flags == item.CurrentPosition.Flags)) != item.CurrentOrientation)
{
rubik.SetFaceColor(item.CurrentPosition.Flags, faceTwo, rubik.GetSliceColor(tFlagOne));
rubik.SetFaceColor(item.CurrentPosition.Flags, faceOne, rubik.GetSliceColor(CubeFlagService.FirstNotInvalidFlag(item.TargetPosition, CubeFlag.MiddleLayer | CubeFlag.MiddleSlice | CubeFlag.MiddleSliceSides | tFlagOne)));
}
}
if (CubePosition.IsCenter(item.CurrentPosition.Flags))
{
CubeFlag flag = CubeFlagService.FirstNotInvalidFlag(item.CurrentPosition.Flags, CubeFlag.MiddleLayer | CubeFlag.MiddleSlice | CubeFlag.MiddleSliceSides);
CubeFlag tFlag = CubeFlagService.FirstNotInvalidFlag(item.TargetPosition, CubeFlag.MiddleLayer | CubeFlag.MiddleSlice | CubeFlag.MiddleSliceSides);
rubik.SetFaceColor(item.CurrentPosition.Flags, CubeFlagService.ToFacePosition(flag), rubik.GetSliceColor(tFlag));
}
}
return rubik;
}
/// <summary>
/// Initializes the StandardCube
/// </summary>
protected void InitStandardCube()
{
StandardCube = Rubik.GenStandardCube();
}
public void TrySolveAsync(Rubik rubik)
{
solvingThread = new Thread(() => SolveAsync(rubik));
solvingThread.Start();
}
/// <summary>
/// Converts a rubik to a pattern
/// </summary>
/// <param name="r">Rubik </param>
/// <returns>The pattern of the given rubik</returns>
public static Pattern FromRubik(Rubik r)
{
Pattern p = new Pattern();
List<PatternItem> newItems = new List<PatternItem>();
foreach (CubePosition pos in Positions)
{
Cube cube = r.Cubes.First(c => r.GetTargetFlags(c) == pos.Flags);
newItems.Add(new PatternItem(cube.Position, Solvability.GetOrientation(r, cube), pos.Flags));
}
p.Items = newItems;
return p;
}
private void SolveAsync(Rubik rubik)
{
bool solvable = Solvability.FullTest(rubik);
if (solvable)
{
Stopwatch sw = new Stopwatch();
sw.Start();
Solve(rubik);
sw.Stop();
if (OnSolutionStepCompleted != null) OnSolutionStepCompleted(this, new SolutionStepCompletedEventArgs(this.Name, true, this.Algorithm, (int)sw.ElapsedMilliseconds));
solvingThread.Abort();
}
else
{
this.BroadcastOnSolutionError(this.Name, "Unsolvable cube");
}
}
public TestScenario(Rubik rubik) : this(rubik, new Algorithm()) { }
public static bool FullTest(Rubik r)
{
return CorrectColors(r) && FullParityTest(r);
}
public static bool CorrectColors(Rubik r)
{
return r.GenStandardCube().Cubes.Count(sc => r.Cubes
.Where(c => CollectionMethods.ScrambledEquals(c.Colors, sc.Colors)).Count() == 1) == r.Cubes.Count();
}
/// <summary>
/// Edge parity test
/// </summary>
/// <param name="rubik">Rubik to be tested</param>
/// <returns>True, if the given Rubik passes the edge parity test</returns>
public static bool EdgeParityTest(Rubik rubik)
{
return rubik.Cubes.Where(c => c.IsEdge).Sum(c => (int)GetOrientation(rubik, c)) % 2 == 0;
}
// **** METHODS ****
public static Rubik FromPattern(Pattern pattern)
{
Rubik rubik = new Rubik();
foreach (PatternItem item in pattern.Items)
{
if (CubePosition.IsCorner(item.CurrentPosition.Flags))
{
bool xyzCorrect = !((item.CurrentPosition.Y == CubeFlag.TopLayer ^ (item.CurrentPosition.X == CubeFlag.RightSlice ^ item.CurrentPosition.Z == CubeFlag.FrontSlice))
^ (CubeFlagService.FirstYFlag(item.TargetPosition) == CubeFlag.TopLayer ^ (CubeFlagService.FirstXFlag(item.TargetPosition) == CubeFlag.RightSlice ^ CubeFlagService.FirstZFlag(item.TargetPosition) == CubeFlag.FrontSlice)));
if (item.CurrentOrientation == Orientation.Correct)
{
rubik.SetFaceColor(item.CurrentPosition.Flags, CubeFlagService.ToFacePosition(item.CurrentPosition.Y), rubik.GetSliceColor(CubeFlagService.FirstYFlag(item.TargetPosition)));
FacePosition x = xyzCorrect ? CubeFlagService.ToFacePosition(item.CurrentPosition.X) : CubeFlagService.ToFacePosition(item.CurrentPosition.Z);
FacePosition z = xyzCorrect ? CubeFlagService.ToFacePosition(item.CurrentPosition.Z) : CubeFlagService.ToFacePosition(item.CurrentPosition.X);
rubik.SetFaceColor(item.CurrentPosition.Flags, x, rubik.GetSliceColor(CubeFlagService.FirstXFlag(item.TargetPosition)));
rubik.SetFaceColor(item.CurrentPosition.Flags, z, rubik.GetSliceColor(CubeFlagService.FirstZFlag(item.TargetPosition)));
}
else
{
bool corr = (item.CurrentPosition.X == CubeFlag.RightSlice ^ item.CurrentPosition.Z == CubeFlag.BackSlice) ^ item.CurrentPosition.Y == CubeFlag.BottomLayer;
FacePosition x = (corr ^ item.CurrentOrientation == Orientation.Clockwise) ? CubeFlagService.ToFacePosition(item.CurrentPosition.X) : CubeFlagService.ToFacePosition(item.CurrentPosition.Y);
FacePosition y = (corr ^ item.CurrentOrientation == Orientation.Clockwise) ? CubeFlagService.ToFacePosition(item.CurrentPosition.Z) : CubeFlagService.ToFacePosition(item.CurrentPosition.X);
FacePosition z = (corr ^ item.CurrentOrientation == Orientation.Clockwise) ? CubeFlagService.ToFacePosition(item.CurrentPosition.Y) : CubeFlagService.ToFacePosition(item.CurrentPosition.Z);
rubik.SetFaceColor(item.CurrentPosition.Flags, x, rubik.GetSliceColor(CubeFlagService.FirstXFlag(item.TargetPosition)));
rubik.SetFaceColor(item.CurrentPosition.Flags, y, rubik.GetSliceColor(CubeFlagService.FirstYFlag(item.TargetPosition)));
rubik.SetFaceColor(item.CurrentPosition.Flags, z, rubik.GetSliceColor(CubeFlagService.FirstZFlag(item.TargetPosition)));
}
}
if (CubePosition.IsEdge(item.CurrentPosition.Flags))
{
CubeFlag flagOne = CubeFlagService.FirstNotInvalidFlag(item.CurrentPosition.Flags, CubeFlag.MiddleLayer | CubeFlag.MiddleSlice | CubeFlag.MiddleSliceSides);
FacePosition faceOne = CubeFlagService.ToFacePosition(flagOne);
FacePosition faceTwo = CubeFlagService.ToFacePosition(CubeFlagService.FirstNotInvalidFlag(item.CurrentPosition.Flags, CubeFlag.MiddleLayer | CubeFlag.MiddleSlice | CubeFlag.MiddleSliceSides | flagOne));
CubeFlag tFlagOne = CubeFlagService.FirstNotInvalidFlag(item.TargetPosition, CubeFlag.MiddleLayer | CubeFlag.MiddleSlice | CubeFlag.MiddleSliceSides);
rubik.SetFaceColor(item.CurrentPosition.Flags, faceOne, rubik.GetSliceColor(tFlagOne));
rubik.SetFaceColor(item.CurrentPosition.Flags, faceTwo, rubik.GetSliceColor(CubeFlagService.FirstNotInvalidFlag(item.TargetPosition, CubeFlag.MiddleLayer | CubeFlag.MiddleSlice | CubeFlag.MiddleSliceSides | tFlagOne)));
if (Solvability.GetOrientation(rubik, rubik.Cubes.First(c => c.Position.Flags == item.CurrentPosition.Flags)) != item.CurrentOrientation)
{
rubik.SetFaceColor(item.CurrentPosition.Flags, faceTwo, rubik.GetSliceColor(tFlagOne));
rubik.SetFaceColor(item.CurrentPosition.Flags, faceOne, rubik.GetSliceColor(CubeFlagService.FirstNotInvalidFlag(item.TargetPosition, CubeFlag.MiddleLayer | CubeFlag.MiddleSlice | CubeFlag.MiddleSliceSides | tFlagOne)));
}
}
if (CubePosition.IsCenter(item.CurrentPosition.Flags))
{
CubeFlag flag = CubeFlagService.FirstNotInvalidFlag(item.CurrentPosition.Flags, CubeFlag.MiddleLayer | CubeFlag.MiddleSlice | CubeFlag.MiddleSliceSides);
CubeFlag tFlag = CubeFlagService.FirstNotInvalidFlag(item.TargetPosition, CubeFlag.MiddleLayer | CubeFlag.MiddleSlice | CubeFlag.MiddleSliceSides);
rubik.SetFaceColor(item.CurrentPosition.Flags, CubeFlagService.ToFacePosition(flag), rubik.GetSliceColor(tFlag));
}
}
return(rubik);
}
/// <summary>
/// Corner parity test
/// </summary>
/// <param name="rubik">Rubik to be tested</param>
/// <returns>True, if the given Rubik passes the corner parity test</returns>
public static bool CornerParityTest(Rubik rubik)
{
return rubik.Cubes.Where(c => c.IsCorner).Sum(c => (int)GetOrientation(rubik,c)) % 3 == 0;
}
public void TrySolveAsync(Rubik rubik)
{
this.solvingThread = new Thread(() => this.SolveAsync(rubik));
this.solvingThread.Start();
}
private IEnumerable<Tuple<Cube, Cube>> GetPairs(Rubik rubik)
{
foreach (Cube edge in rubik.Cubes.Where(c => c.IsEdge && Rubik.GetTargetFlags(c).HasFlag(CubeFlag.MiddleLayer)))
{
Cube corner = rubik.Cubes.First(c => c.IsCorner && (rubik.GetTargetFlags(c) & ~CubeFlag.BottomLayer) == (rubik.GetTargetFlags(edge) & ~CubeFlag.MiddleLayer));
if (!rubik.IsCorrect(corner) || !rubik.IsCorrect(edge))
yield return new Tuple<Cube, Cube>(edge, corner);
}
}
public TestScenario(Rubik rubik, Algorithm moves)
{
Rubik = rubik.DeepClone();
Algorithm = moves;
}
/// <summary>
/// Returns a solved Rubik
/// </summary>
/// <returns></returns>
public Rubik GenStandardCube()
{
Rubik standardCube = new Rubik();
standardCube.SetFaceColor(CubeFlag.TopLayer, FacePosition.Top, TopColor);
standardCube.SetFaceColor(CubeFlag.BottomLayer, FacePosition.Bottom, BottomColor);
standardCube.SetFaceColor(CubeFlag.RightSlice, FacePosition.Right, RightColor);
standardCube.SetFaceColor(CubeFlag.LeftSlice, FacePosition.Left, LeftColor);
standardCube.SetFaceColor(CubeFlag.FrontSlice, FacePosition.Front, FrontColor);
standardCube.SetFaceColor(CubeFlag.BackSlice, FacePosition.Back, BackColor);
return standardCube;
}
public static bool FullParityTest(Rubik r)
{
return PermutationParityTest(r) && CornerParityTest(r) && EdgeParityTest(r);
}
/// <summary>
/// Permutation parity test
/// </summary>
/// <param name="rubik">Rubik to be tested</param>
/// <returns>True, if the given Rubik passes the permutation parity test</returns>
public static bool PermutationParityTest(Rubik rubik)
{
Pattern p = Pattern.FromRubik(rubik);
return p.Inversions % 2 == 0;
}
public TestScenario(Rubik rubik, LayerMove move) : this(rubik, new Algorithm(move.ToString())) { }
public BeginnerSolver(Rubik cube)
{
Rubik = cube.DeepClone();
this.Algorithm = new Algorithm();
InitStandardCube();
}
/// <summary>
/// Refreshes the position of a cube
/// </summary>
/// <param name="r">Parent rubik of the cube</param>
private static Cube RefreshCube(Rubik r, Cube c)
{
return r.Cubes.First(cu => CollectionMethods.ScrambledEquals(cu.Colors, c.Colors));
}
