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252 lines
4.8 KiB
252 lines
4.8 KiB
package solutions |
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type TreeNode struct { |
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Left, Right, Parent *TreeNode |
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Data string |
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} |
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func BTreeInsertData(bt *TreeNode, elem string) *TreeNode { |
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if bt == nil { |
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return &TreeNode{Data: elem} |
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} |
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if elem < bt.Data { |
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bt.Left = BTreeInsertData(bt.Left, elem) |
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bt.Left.Parent = bt |
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} else if elem >= bt.Data { |
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bt.Right = BTreeInsertData(bt.Right, elem) |
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bt.Right.Parent = bt |
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} |
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return bt |
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} |
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func BTreeApplyInorder(root *TreeNode, f func(...interface{}) (int, error)) { |
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if root != nil { |
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BTreeApplyInorder(root.Left, f) |
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f(root.Data) |
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BTreeApplyInorder(root.Right, f) |
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} |
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} |
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func BTreeApplyPreorder(root *TreeNode, f func(...interface{}) (int, error)) { |
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if root != nil { |
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f(root.Data) |
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BTreeApplyPreorder(root.Left, f) |
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BTreeApplyPreorder(root.Right, f) |
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} |
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} |
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func BTreeApplyPostorder(root *TreeNode, f func(...interface{}) (int, error)) { |
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if root != nil { |
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BTreeApplyPostorder(root.Left, f) |
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BTreeApplyPostorder(root.Right, f) |
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f(root.Data) |
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} |
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} |
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func BTreeSearchItem(root *TreeNode, elem string) *TreeNode { |
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if root == nil { |
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return nil |
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} |
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if root.Data == elem { |
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return root |
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} |
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if elem < root.Data { |
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return BTreeSearchItem(root.Left, elem) |
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} |
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return BTreeSearchItem(root.Right, elem) |
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} |
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func BTreeLevelCount(root *TreeNode) int { |
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if root == nil { |
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return 0 |
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} |
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left := BTreeLevelCount(root.Left) |
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right := BTreeLevelCount(root.Right) |
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if left > right { |
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return left + 1 |
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} |
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return right + 1 |
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} |
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func BTreeIsBinary(root *TreeNode) bool { |
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condLeft := true |
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condRight := true |
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if root == nil { |
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return true |
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} |
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if root.Left != nil { |
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condLeft = BTreeIsBinary(root.Left) && root.Data >= root.Left.Data |
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} |
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if root.Right != nil { |
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condRight = BTreeIsBinary(root.Right) && root.Data <= root.Right.Data |
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} |
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return condLeft && condRight |
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} |
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func applyGivenOrder(root *TreeNode, level int, f func(...interface{}) (int, error)) { |
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if root == nil { |
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return |
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} |
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if level == 0 { |
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arg := interface{}(root.Data) |
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f(arg) |
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} else if level > 0 { |
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applyGivenOrder(root.Left, level-1, f) |
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applyGivenOrder(root.Right, level-1, f) |
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} |
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} |
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//Apply the function f level by level |
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func BTreeApplyByLevel(root *TreeNode, f func(...interface{}) (int, error)) { |
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h := BTreeLevelCount(root) |
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for i := 0; i < h; i++ { |
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applyGivenOrder(root, i, f) |
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} |
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} |
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/*----------------------------------- |
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* node-> (A) (B) |
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* / / \ |
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* temp-> (B) --------> (C) (A) |
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* / \ / |
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* (C) [z] [z] |
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*------------------------------------*/ |
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func BTreeRotateRight(node *TreeNode) *TreeNode { |
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if node == nil { |
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return nil |
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} |
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if node.Left == nil { |
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return node |
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} |
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temp := node.Left |
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node.Left = temp.Right |
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if temp.Right != nil { |
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temp.Right.Parent = node |
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} |
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if node.Parent != nil { |
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if node == node.Parent.Left { |
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node.Parent.Left = temp |
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} else { |
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node.Parent.Right = temp |
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} |
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} |
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temp.Right = node |
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temp.Parent = node.Parent |
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node.Parent = temp |
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return temp |
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} |
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/*------------------------------------ |
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* node->(A) (B) |
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* \ / \ |
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* temp-> (B) -------> (A) (C) |
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* / \ \ |
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* [z] (C) [z] |
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*------------------------------------- */ |
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func BTreeRotateLeft(node *TreeNode) *TreeNode { |
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if node == nil { |
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return nil |
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} |
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if node.Right == nil { |
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return node |
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} |
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temp := node.Right |
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node.Right = temp.Left |
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if temp.Left != nil { |
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temp.Left.Parent = node |
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} |
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if node.Parent != nil { |
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if node == node.Parent.Left { |
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node.Parent.Left = temp |
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} else { |
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node.Parent.Right = temp |
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} |
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} |
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temp.Left = node |
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temp.Parent = node.Parent |
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node.Parent = temp |
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return temp |
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} |
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//Returns the maximum node in the subtree started by root |
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func BTreeMax(root *TreeNode) *TreeNode { |
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if root == nil || root.Right == nil { |
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return root |
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} |
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return BTreeMax(root.Right) |
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} |
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//Returns the minimum value in the subtree started by root |
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func BTreeMin(root *TreeNode) *TreeNode { |
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if root == nil || root.Left == nil { |
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return root |
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} |
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return BTreeMin(root.Left) |
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} |
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func BTreeTransplant(root, node, repla *TreeNode) *TreeNode { |
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if root == nil { |
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return nil |
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} |
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replacement := node |
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if node.Parent == nil { |
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root = repla |
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} else if node == node.Parent.Left { |
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replacement.Parent.Left = repla |
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} else { |
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replacement.Parent.Right = repla |
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} |
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if repla != nil { |
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repla.Parent = node.Parent |
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} |
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return root |
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} |
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func BTreeDeleteNode(root, node *TreeNode) *TreeNode { |
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if node != nil { |
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if node.Left == nil { |
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root = BTreeTransplant(root, node, node.Right) |
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} else if node.Right == nil { |
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root = BTreeTransplant(root, node, node.Left) |
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} else { |
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y := BTreeMin(node.Right) |
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if y != nil && y.Parent != node { |
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root = BTreeTransplant(root, y, y.Right) |
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y.Right = node.Right |
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y.Right.Parent = y |
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} |
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root = BTreeTransplant(root, node, y) |
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y.Left = node.Left |
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y.Left.Parent = y |
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} |
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} |
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return root |
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}
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