二叉樹的建立與實現
#include <iostream> #include<cstdio> #include<cstdlib>
using namespace std;
typedef int TelemType;//TelemType代替int
typedef struct BinaryTreeNode { TelemType data; struct BinaryTreeNode *Left; struct BinaryTreeNode *Right; }Node;//Node==struct BinaryTreeNode
//建立二叉樹,順序依次為中間節點->左子樹->右子樹 Node* createBinaryTree()//指向Node型別的指標 { Node* p; TelemType ch; cin >> ch; if (ch == 0) //如果到了葉子節點,接下來的左、右子樹分別賦值為0 { p = NULL; } else { p = new Node;//p = (Node*)malloc(sizeof(Node)); new分配Node型別所佔的空間 p->data = ch; p->Left = createBinaryTree(); //遞迴建立左子樹 p->Right = createBinaryTree(); //遞迴建立右子樹 } return p; }
//先序遍歷 void preOrderTraverse(Node* root) { if (root) { cout << root->data << ' '; preOrderTraverse(root->Left); preOrderTraverse(root->Right); } }
//中序遍歷 void inOrderTraverse(Node* root) { if (root) { inOrderTraverse(root->Left); cout << root->data << ' '; inOrderTraverse(root->Right); } }
//後序遍歷 void lastOrderTraverse(Node* root) { if (root) { lastOrderTraverse(root->Left); lastOrderTraverse(root->Right); cout << root->data << ' '; } }
//二叉樹節點總數目 int Nodenum(Node* root) { if (root == NULL) { return 0; } else { return 1 + Nodenum(root->Left) + Nodenum(root->Right);
} }
//二叉樹的深度 int DepthOfTree(Node* root) { if (root) { return DepthOfTree(root->Left)>DepthOfTree(root->Right) ? DepthOfTree(root->Left) + 1 : DepthOfTree(root->Right) + 1; } if (root == NULL) { return 0; } }
//二叉樹葉子節點數 int Leafnum(Node* root) { if (!root) { return 0; } else if ((root->Left == NULL) && (root->Right == NULL)) { return 1; } else { return (Leafnum(root->Left) + Leafnum(root->Right)); } }
int main() { Node *root = NULL; root = createBinaryTree(); printf("二叉樹建立成功"); cout << endl;
cout << "二叉樹總節點數為:" << Nodenum(root) << endl;
cout << "二叉樹深度為:" << DepthOfTree(root) << endl;
cout << "二叉樹葉子節點數為:" << Leafnum(root) << endl;
cout << "前序遍歷結果:" << endl; preOrderTraverse(root); cout << endl;
cout << "中序遍歷結果:" << endl; inOrderTraverse(root); cout << endl;
cout << "後序遍歷結果:" << endl; lastOrderTraverse(root); cout << endl;
return 0; }