public void Execute() { DeleteAltSwapAdjacentSortandMergeAddLL list = new DeleteAltSwapAdjacentSortandMergeAddLL(); DeleteAltSwapAdjacentSortandMergeAddLL list2 = new DeleteAltSwapAdjacentSortandMergeAddLL(); list.head = new Node(4); list.head.Next = new Node(0); list.head.Next.Next = new Node(9); list.head.Next.Next.Next = new Node(4); //list.head.Next.Next.Next.Next = new Node(2); //list.head.Next.Next.Next.Next.Next = new Node(0); //list.head.Next.Next.Next.Next.Next.Next = new Node(12); //list.head.Next.Next.Next.Next.Next.Next.Next = new Node(11); list2.head = new Node(9); list2.head.Next = new Node(6); list2.head.Next.Next = new Node(7); //list2.head.Next.Next.Next = new Node(4); //list2.head.Next.Next.Next.Next = new Node(2); //list2.head.Next.Next.Next.Next.Next = new Node(8); //DeleteAlternate(list.head); //SwapAdjacentNodes(list.head); // Node temp = MergeSortedLL(list.head, list2.head); // PrintList(temp); //recursion //Node temp1 = RecursionMergeSortedLL(list.head, list2.head); //PrintList(temp1); //Node temp2= AddLLs(list.head,list2.head); //PrintList(temp2); //Node temp3 = MultiplyLLs(list.head, list2.head); //Node temp4 = ReverseList(temp3); //PrintList(temp4); Node temp5 = subtractLinkedList(list.head, list2.head); PrintList(temp5); }
private static IAlgorithm GetAlgorithm(string name) { switch (name) { case "RemoveDuplicatesfromString": string Input = "You have beautiful eyes"; IAlgorithm RemoveDuplicatesfromString = new RemoveDuplicatesfromString(Input); return(RemoveDuplicatesfromString); case "PairAndThreewithGivenSum": int[] Input1 = new int[] { 8, 4, 7, 10, 2, 5, -3, 1, -1, 0, 4 }; int sum = 0; IAlgorithm PairandThreewithGivenSum = new PairAndThreewithGivenSum(Input1, sum); return(PairandThreewithGivenSum); case "RearrangeEvenAndOdd": int[] Input2 = new int[] { 0, 0, 0, 0, 1, 1, 1, 0, 1, 0, 0, 1, 1, 0, 0, 0, 0, 0, 0, 0, 1 }; IAlgorithm RearrangeEvenAndOdd = new RearrangeEvenAndOdd(Input2); return(RearrangeEvenAndOdd); case "SpiralDiagonalUDMatrix": int[,] Input3 = new int[, ] { { 1, 2, 3, 4 }, { 5, 6, 7, 8 }, { 9, 10, 11, 12 }, { 10, 20, 30, 40 } }; IAlgorithm SpiralDiagonalUDMatrix = new SpiralDiagonalUDMatrix(Input3); return(SpiralDiagonalUDMatrix); case "SubstringsAndSubArrays": int[] Input4 = new int[] { 1, 2, 3, 5, 6, 7, 3, 5, 5, 5, 5, 5, 5 }; int[] Input5 = new int[] { 1, 6, 7, 9 }; IAlgorithm SubstringsAndSubArrays = new SubstringsAndSubArrays(Input4, Input5); return(SubstringsAndSubArrays); case "SubsequencesArrayString": String Input6 = "abc"; IAlgorithm SubsequencesArrayString = new SubsequencesArrayString(Input6); return(SubsequencesArrayString); case "PermParanthesisBinaryOpDeckShuffle": String Input7 = "acd"; IAlgorithm PermParanthesisBinaryOpDeckShuffle = new PermParanthesisBinaryOpDeckShuffle(Input7); return(PermParanthesisBinaryOpDeckShuffle); case "PrimeRectArea": int Input8 = 1; IAlgorithm PrimeRectArea = new PrimeRectArea(Input8); return(PrimeRectArea); case "ReverseInPlaceFibonacciAnagarams": string[] Input9 = { "cat", "dog", "tacg", "god", "odg", "dayiloh", "holiday" }; IAlgorithm ReverseInPlaceFibonacciAnagarams = new ReverseInPlaceFibonacciAnagarams(Input9); return(ReverseInPlaceFibonacciAnagarams); case "RotateArrayPalindromeVerticalPrint": int[] Input10 = { 1, 4, 5, 3, 2, 2, 5 }; int rotateBy = 3; IAlgorithm RotateArrayPalindromeVerticalPrint = new RotateArrayPalindromeVerticalPrint(Input10, rotateBy); return(RotateArrayPalindromeVerticalPrint); case "FirstNonrptnChar_EquilibruimIndex_CommonPrefix": string Input11 = "bhavana"; IAlgorithm FirstNonrptnChar_EquilibruimIndex_CommonPrefix = new FirstNonrptnChar_EquilibruimIndex_CommonPrefix(Input11); return(FirstNonrptnChar_EquilibruimIndex_CommonPrefix); case "SymtricPairs_abeqcdPairs_SubArr": int[,] Input12 = { { 11, 20 }, { 30, 40 }, { 5, 10 }, { 40, 30 }, { 10, 5 } }; IAlgorithm SymtricPairs_abeqcdPairs_SubArr = new SymtricPairs_abeqcdPairs_SubArr(Input12); return(SymtricPairs_abeqcdPairs_SubArr); case "GCD_ModifyMatrix_InfixtPostfix": int Input13 = 56, Input14 = 42; IAlgorithm GCD_ModifyMatrix_InfixtPostfix = new GCD_ModifyMatrix_InfixtPostfix(Input13, Input14); return(GCD_ModifyMatrix_InfixtPostfix); case "LongestPalindromeUniqueCommonSubstring": string Input15 = "Geeksforgeeks", Input16 = "GoodMfororning"; IAlgorithm LongestPalindromeUniqueCommonSubstring = new LongestPalindromeUniqueCommonSubstring(Input15, Input16); return(LongestPalindromeUniqueCommonSubstring); case "LongstConsecSubseqLongstContSubarrayLongstcmnSubseq": int[] Input17 = { 36, 41, 56, 35, 44, 33, 34, 92, 43, 32, 42 }; IAlgorithm LongstConsecSubseqLongstContSubarrayLongstcmnSubseq = new LongstConsecSubseqLongstContSubarrayLongstcmnSubseq(Input17); return(LongstConsecSubseqLongstContSubarrayLongstcmnSubseq); case "MedArrays": int[] Input18 = { 36, 41, 56, 35, 44, 33, 34, 92, 43, 32, 42 }; IAlgorithm MedArrays = new MedArrays(Input18); return(MedArrays); case "VPArrays": int[] Input19 = { 36, 41, 56, 35, 44, 33, 34, 92, 43, 32, 42 }; IAlgorithm VPArrays = new VPArrays(Input19); return(VPArrays); //Linked Lists case "MiddleElLoopExistsLLReverseRemoveNode": IAlgorithm MiddleElLoopExistsLLReverseRemoveNode = new MiddleElLoopExistsLLReverseRemoveNode(); return(MiddleElLoopExistsLLReverseRemoveNode); case "DuplicatesLengthPalindromeKthnode": IAlgorithm DuplicatesLengthPalindromeKthnode = new DuplicatesLengthPalindromeKthnode(); return(DuplicatesLengthPalindromeKthnode); case "DeleteAltSwapAdjacentSortandMergeAddLL": IAlgorithm DeleteAltSwapAdjacentSortandMergeAddLL = new DeleteAltSwapAdjacentSortandMergeAddLL(); return(DeleteAltSwapAdjacentSortandMergeAddLL); case "RotateByKthSLLCRUD": IAlgorithm RotateByKthSLLCRUD = new RotateByKthSLLCRUD(); return(RotateByKthSLLCRUD); case "MedLL": IAlgorithm MedLL = new MedLL(); return(MedLL); case "SQSQQandQSQSSandSAQA": IAlgorithm SQSQQandQSQSSandSAQA = new SQSQQandQSQSSandSAQA(); return(SQSQQandQSQSSandSAQA); case "Sortusing2SMergeSortQuicksort": IAlgorithm Sortusing2SMergeSortQuicksort = new Sortusing2SMergeSortQuicksort(); return(Sortusing2SMergeSortQuicksort); case "CRUD": IAlgorithm CRUD = new CRUD(); return(CRUD); case "InorderSuccMinHgtBSTCmnAncestorValidBST": IAlgorithm InorderSuccMinHgtBSTCmnAncestorValidBST = new InorderSuccMinHgtBSTCmnAncestorValidBST(); return(InorderSuccMinHgtBSTCmnAncestorValidBST); case "InPrPsIterativeandRecursiveLeftTopRightBottomViews": IAlgorithm InPrPsIterativeandRecursiveLeftTopRightBottomViews = new InPrPsIterativeandRecursiveLeftTopRightBottomViews(); return(InPrPsIterativeandRecursiveLeftTopRightBottomViews); case "BoundarySpiralTraversalBuildTreeAllCombos": IAlgorithm BoundarySpiralTraversalBuildTreeAllCombos = new BoundarySpiralTraversalBuildTreeAllCombos(); return(BoundarySpiralTraversalBuildTreeAllCombos); case "ConnectlevelsCheckHeightBalancedSymmetricTree": IAlgorithm ConnectlevelsCheckHeightBalancedSymmetricTree = new ConnectlevelsCheckHeightBalancedSymmetricTree(); return(ConnectlevelsCheckHeightBalancedSymmetricTree); case "InvertTreePathsumMaxMinDepthTreeFlattenBTtoLL": IAlgorithm InvertTreePathsumMaxMinDepthTreeFlattenBTtoLL = new InvertTreePathsumMaxMinDepthTreeFlattenBTtoLL(); return(InvertTreePathsumMaxMinDepthTreeFlattenBTtoLL); case "Nodesbtwn2levelsLongestPathBinary2BSTVerticalNodesSum": IAlgorithm Nodesbtwn2levelsLongestPathBinary2BSTVerticalNodesSum = new Nodesbtwn2levelsLongestPathBinary2BSTVerticalNodesSum(); return(Nodesbtwn2levelsLongestPathBinary2BSTVerticalNodesSum); case "NodemstkSwapSubtreeofaTreeAllpathsrootToleaves": IAlgorithm NodemstkSwapSubtreeofaTreeAllpathsrootToleaves = new NodemstkSwapSubtreeofaTreeAllpathsrootToleaves(); return(NodemstkSwapSubtreeofaTreeAllpathsrootToleaves); case "RatInMazeTravelZerosPath": IAlgorithm RatInMazeTravelZerosPath = new RatInMazeTravelZerosPath(); return(RatInMazeTravelZerosPath); case "BFSDFS": IAlgorithm BFSDFS = new BFSDFS(4); return(BFSDFS); } return(null); }