public static bool fork(int[] arr) { if (WinCheck.Win(arr)) { return(false); } int count = 0; foreach (int x in arr) { if (x != 0) { count++; } } if (count > 5) { return(false); } if (ForkValid.ForkVal(arr) < 2) { return(false); } for (int i = 0; i < arr.Length; i++) { if (arr[i] == 2) { if (arr[i] == arr[(i + 1) % arr.Length] && arr[i] == arr[(i + 3) % arr.Length]) { return(true); } if (arr[i] == arr[(i + 1) % arr.Length] && arr[i] == arr[(i + 4) % arr.Length] && arr[0] != arr[5]) { return(true); } if (arr[i] == arr[(i + 3) % arr.Length] && arr[i] == arr[(i + 4) % arr.Length] && arr[2] != arr[3]) { return(true); } if (arr[i] == arr[(i + 2) % arr.Length] && arr[i] == arr[(i + 3) % arr.Length]) { return(true); } if (arr[i] == arr[(i + 4) % arr.Length] && arr[i] == arr[(i + 6) % arr.Length] && arr[1] != arr[7] && arr[0] != arr[7] && arr[1] != arr[6]) { return(true); } if (arr[i] == arr[(i + 2) % arr.Length] && arr[i] == arr[(i + 6) % arr.Length] && arr[1] != arr[3] && arr[2] != arr[7] && arr[1] != arr[8]) { return(true); } } } if (arr[4] == 2) { if (arr[0] == arr[2] && arr[2] == arr[4]) { return(true); } if (arr[6] == arr[8] && arr[8] == arr[4]) { return(true); } } return(false); }
public static void Main(string[] args) { int[] arr = new int[9]; int count = 1; List <int[]> forkarr = new List <int[]>(); List <int[]> fullarr = new List <int[]>(); List <int[]> Altforkarr = new List <int[]>(); for (int i = 0; i < 3; i++) { for (int j = 0; j < 3; j++) { for (int k = 0; k < 3; k++) { for (int l = 0; l < 3; l++) { for (int m = 0; m < 3; m++) { for (int n = 0; n < 3; n++) { for (int o = 0; o < 3; o++) { for (int p = 0; p < 3; p++) { for (int q = 0; q < 3; q++) { arr[0] = i; arr[1] = j; arr[2] = k; arr[3] = l; arr[4] = m; arr[5] = n; arr[6] = o; arr[7] = p; arr[8] = q; if (Valid.check(arr)) { Console.WriteLine(count + ") "); WinCheck.Win(arr); PrintGame.print(arr); fullarr.Add(arr); if (AltFork.check(arr)) { Altforkarr.Add(arr); Console.WriteLine("It's a Alternative Fork!"); } //alternative fork check count++; Console.WriteLine(); } arr = new int[9]; } } } } } } } } } Console.WriteLine("The Forks: "); int c = 1; foreach (int[] arry in Altforkarr) { Console.WriteLine(c + ") "); PrintGame.print(arry); Console.WriteLine(); c++; } //now make a new list of non-duplicated forks List <int[]> AltforkarrND = Altforkarr; // now complete duplicate fork list for forks and print them for (int i = 0; i < AltforkarrND.Count; i++) { for (int j = 0; j < AltforkarrND.Count; j++) { if (ForkValid.ForkDuplicate(AltforkarrND[i], AltforkarrND[j]) == 3) { AltforkarrND.Remove(AltforkarrND[j]); } } } Console.WriteLine("Now the non-duplicated forks:"); int co = 1; foreach (int[] arry in AltforkarrND) { Console.WriteLine(co + ") "); PrintGame.print(arry); Console.WriteLine(); co++; } //declare graph var graph = new AdjacencyGraph <int[], Edge <int[]> >(); //add all board states to graph as vertices for (int i = 0; i < fullarr.Count; i++) { graph.AddVertex(fullarr[i]); } //if connect conditions are met then connect vertices with edges for (int i = 0; i < fullarr.Count; i++) { for (int j = 0; j < fullarr.Count; j++) { if (Connected.connect(fullarr[i], fullarr[j])) { Edge <int[]> a = new Edge <int[]>(fullarr[i], fullarr[j]); //make new edge graph.AddEdge(a); //connect edge } } } //print the edges foreach (var vertex in graph.Vertices) { foreach (var edge in graph.OutEdges(vertex)) { PrintGame.print(vertex); Console.WriteLine(edge); } } Console.ReadKey(); }