https://blog.csdn.net/RowandJJ/article/details/26209603
节点形态:
实现:
/****************************************** 二叉树的二叉链表存储 by Rowandjj 2014/5/18 ******************************************/ #include<IOSTREAM> using namespace std; /*二叉树的二叉链表存储表示*/ typedef int TElemType; typedef struct _TREENODE_ { TElemType data;//值 struct _TREENODE_ *lChild;//左孩子 struct _TREENODE_ *rChild;//右孩子 }TreeNode,*pTreeNode,**ppTreeNode; /*--------------辅助队列-------------------*/ typedef struct _QUEUE_NODE_//队列节点定义 { pTreeNode data;//数据域(存储二叉树节点) struct _QUEUE_NODE_ *pNext;//指针域 }QueueNode,*pQueueNode; typedef struct _QUEUE_ { pQueueNode pHead;//队列头指针 pQueueNode pTail;//队列尾指针 int nodeCount;//队列节点个数 }Queue,*pQueue; /*队列基本操作*/ void InitQueue(pQueue pQueueTemp); void EnQueue(pQueue pQueueTemp,pTreeNode pTreeNodeTemp); bool DeQueue(pQueue pQueueTemp,ppTreeNode ppTreeNodeTemp); bool IsQueueEmpty(Queue QueueTemp); void DestroyQueue(pQueue pQueueTemp); //----------------------------------------------------------------------- /*二叉树基本操作*/ void InitTree(ppTreeNode ppTreeNodeTemp); void CreateTree(ppTreeNode ppTreeNodeTemp); void DestroyTree(ppTreeNode ppTreeNodeTemp); bool IsEmpty(pTreeNode pTreeNodeTemp); void PreTravel(pTreeNode pTreeNodeTemp);//先序遍历 void MidTravel(pTreeNode pTreeNodeTemp);//中序遍历 void PosTravel(pTreeNode pTreeNodeTemp);//后序遍历 void LevelTravel(pTreeNode pTreeNodeTemp);//层次遍历 int GetDepth(pTreeNode pTreeNodeTemp);//求二叉树深度 void FindNode(pTreeNode pTreeNodeTemp,int data,ppTreeNode pFind);//查找节点。假设成功则用pFind返回 void Assign(pTreeNode pTreeNodeTemp,TElemType data);//赋值 void GetRoot(pTreeNode pTreeNodeTemp,void (*print)(TElemType));//获取根节点 pTreeNode GetParent(pTreeNode pTreeNodeTemp,TElemType data);//获取父节点 pTreeNode GetPoint(pTreeNode pTreeNodeTemp,TElemType data);//返回指向元素值为data的节点的指针 pTreeNode GetLeftChild(pTreeNode pTreeNodeTemp,TElemType data);//获取元素值为data的左孩子 pTreeNode GetRightChild(pTreeNode pTreeNodeTemp,TElemType data);//获取元素值为data的右孩子 pTreeNode GetLeftSibling(pTreeNode pTreeNodeTemp,TElemType data);//获取元素值为data的左兄弟 pTreeNode GetRightSibling(pTreeNode pTreeNodeTemp,TElemType data);//获取元素值为data的右兄弟 bool InsertChild(pTreeNode pTreeNodeTemp,int flag,pTreeNode pTreeNew);//将pTreeNew总体插到pTreeNodeTemp中,约定pTreeNew右子树为空,依据标志位flag的0或者1来推断插入位置 bool DeleteChild(pTreeNode pTreeNodeTemp,int flag);//flag==0,删除左子树,否则删除右子树 void printNode(TElemType e); //-------------队列基本操作实现---------------------------------- void InitQueue(pQueue pQueueTemp) { pQueueTemp->pHead = pQueueTemp->pTail = (pQueueNode)malloc(sizeof(QueueNode)); if(pQueueTemp->pHead == NULL) { return; } pQueueTemp->pHead->pNext = NULL; pQueueTemp->nodeCount = 0; } void EnQueue(pQueue pQueueTemp,pTreeNode pTreeNodeTemp) { pQueueNode pNodeNew = (pQueueNode)malloc(sizeof(QueueNode)); if(pNodeNew != NULL) { pNodeNew->data = pTreeNodeTemp; pNodeNew->pNext = NULL; pQueueTemp->pTail->pNext = pNodeNew; pQueueTemp->pTail = pNodeNew; pQueueTemp->nodeCount++; } } bool DeQueue(pQueue pQueueTemp,ppTreeNode ppTreeNodeTemp) { if(IsQueueEmpty(*pQueueTemp)) { return false; } pQueueNode pDel = pQueueTemp->pHead->pNext; pQueueTemp->pHead->pNext = pDel->pNext; *ppTreeNodeTemp = pDel->data; pQueueTemp->nodeCount--; if(pQueueTemp->pTail == pDel) { pQueueTemp->pTail = pQueueTemp->pHead; } free(pDel); return true; } bool IsQueueEmpty(Queue QueueTemp) { return (QueueTemp.nodeCount > 0) ?
false : true; } void DestroyQueue(pQueue pQueueTemp) { if(pQueueTemp != NULL) { pQueueNode pTemp = pQueueTemp->pHead->pNext; while(pTemp!=NULL) { pQueueTemp->pHead->pNext = pTemp->pNext; free(pTemp); pTemp = pQueueTemp->pHead->pNext; } free(pQueueTemp->pHead); pQueueTemp->pHead = pQueueTemp->pTail = NULL; pQueueTemp->nodeCount = 0; } } //------------------二叉树操作实现-------------------------------- void CreateTree(ppTreeNode ppTreeNodeTemp) { int a = 0; cin>>a; if(a == -1) { return; } else { *ppTreeNodeTemp = (pTreeNode)malloc(sizeof(TreeNode)); if(*ppTreeNodeTemp != NULL) { (*ppTreeNodeTemp)->data = a; (*ppTreeNodeTemp)->lChild = NULL; (*ppTreeNodeTemp)->rChild = NULL; CreateTree(&(*ppTreeNodeTemp)->lChild); CreateTree(&(*ppTreeNodeTemp)->rChild); } } } void DestroyTree(ppTreeNode ppTreeNodeTemp) { if(*ppTreeNodeTemp == NULL) { return; } if((*ppTreeNodeTemp)->lChild != NULL) { DestroyTree(&(*ppTreeNodeTemp)->lChild); } if((*ppTreeNodeTemp)->rChild != NULL) { DestroyTree(&(*ppTreeNodeTemp)->rChild); } free(*ppTreeNodeTemp); *ppTreeNodeTemp = NULL; } bool IsEmpty(pTreeNode pTreeNodeTemp) { return (pTreeNodeTemp == NULL); } void PreTravel(pTreeNode pTreeNodeTemp)//先序遍历 { if(pTreeNodeTemp != NULL) { cout<<pTreeNodeTemp->data<<" ";//先訪问根节点 PreTravel(pTreeNodeTemp->lChild);//再先序遍历左子树 PreTravel(pTreeNodeTemp->rChild);//最后先序遍历右子树 } } void InitTree(ppTreeNode ppTreeNodeTemp) { *ppTreeNodeTemp = NULL; } void MidTravel(pTreeNode pTreeNodeTemp)//中序遍历 { if(pTreeNodeTemp != NULL) { MidTravel(pTreeNodeTemp->lChild);//先左子树 cout<<pTreeNodeTemp->data<<" ";//再根节点 MidTravel(pTreeNodeTemp->rChild);//最后右子树 } } void PosTravel(pTreeNode pTreeNodeTemp)//后序遍历 { if(pTreeNodeTemp != NULL) { PosTravel(pTreeNodeTemp->lChild);//先左子树 PosTravel(pTreeNodeTemp->rChild);//再右子树 cout<<pTreeNodeTemp->data<<" ";//最后根节点 } } int GetDepth(pTreeNode pTreeNodeTemp) { int i = 0; int j = 0; if(pTreeNodeTemp == NULL) { return 0; } else { if(pTreeNodeTemp->lChild != NULL) { i = GetDepth(pTreeNodeTemp->lChild); }else { i = 0; } if(pTreeNodeTemp->rChild != NULL) { j = GetDepth(pTreeNodeTemp->rChild); }else { j = 0; } return (i>j)?i+1:j+1; } } void FindNode(pTreeNode pTreeNodeTemp,int data,ppTreeNode pFind) { if(pTreeNodeTemp == NULL) { return; } if(pTreeNodeTemp->data == data) { *pFind = pTreeNodeTemp; } else { FindNode(pTreeNodeTemp->lChild,data,pFind); FindNode(pTreeNodeTemp->rChild,data,pFind); } } void Assign(pTreeNode pTreeNodeTemp,int data) { if(pTreeNodeTemp->data != NULL) { pTreeNodeTemp->data = data; } } void GetRoot(pTreeNode pTreeNodeTemp,void (*print)(TElemType)) { if(pTreeNodeTemp != NULL) { print(pTreeNodeTemp->data); }else { print(-1); } } pTreeNode GetParent(pTreeNode pTreeNodeTemp,TElemType data) { Queue qTemp; pTreeNode pTreeNodeNew; if(pTreeNodeTemp != NULL) { InitQueue(&qTemp); EnQueue(&qTemp,pTreeNodeTemp);//先入队根节点 while(!IsQueueEmpty(qTemp)) { DeQueue(&qTemp,&pTreeNodeNew); if(pTreeNodeNew->lChild&&pTreeNodeNew->lChild->data==data || pTreeNodeNew->rChild&&pTreeNodeNew->rChild->data==data) { return pTreeNodeNew; }else { if(pTreeNodeNew->lChild) { EnQueue(&qTemp,pTreeNodeNew->lChild); } if(pTreeNodeNew->rChild) { EnQueue(&qTemp,pTreeNodeNew->rChild); } } } } DestroyQueue(&qTemp); return NULL; } pTreeNode GetPoint(pTreeNode pTreeNodeTemp,TElemType data) { Queue qTemp; pTreeNode pTreeNodeNew; if(pTreeNodeTemp != NULL) { InitQueue(&qTemp); EnQueue(&qTemp,pTreeNodeTemp); while(!IsQueueEmpty(qTemp)) { DeQueue(&qTemp,&pTreeNodeNew); if(pTreeNodeNew->data == data) { return pTreeNodeNew; } else { if(pTreeNodeNew->lChild) { EnQueue(&qTemp,pTreeNodeNew->lChild); } if(pTreeNodeNew->rChild) { EnQueue(&qTemp,pTreeNodeNew->rChild); } } } } DestroyQueue(&qTemp); return NULL; } pTreeNode GetLeftChild(pTreeNode pTreeNodeTemp,TElemType data) { if(pTreeNodeTemp != NULL) { pTreeNode pParentNode = GetPoint(pTreeNodeTemp,data); if(pParentNode && pParentNode->lChild) { return pParentNode->lChild; } } return NULL; } pTreeNode GetRightChild(pTreeNode pTreeNodeTemp,TElemType data) { if(pTreeNodeTemp != NULL) { pTreeNode pParentNode = GetPoint(pTreeNodeTemp,data); if(pParentNode && pParentNode->rChild) { return pParentNode->rChild; } } return NULL; } pTreeNode GetLeftSibling(pTreeNode pTreeNodeTemp,TElemType data) { if(pTreeNodeTemp != NULL) { pTreeNode pParent = GetParent(pTreeNodeTemp,data); if(pParent && pParent->lChild && pParent->rChild->data == data) { return pParent->lChild; } } return NULL; } pTreeNode GetRightSibling(pTreeNode pTreeNodeTemp,TElemType data) { if(pTreeNodeTemp != NULL) { pTreeNode pParent = GetParent(pTreeNodeTemp,data); if(pParent && pParent->rChild && pParent->lChild->data == data) { return pParent->rChild; } } return NULL; } void LevelTravel(pTreeNode pTreeNodeTemp) { Queue qTemp; pTreeNode pTreeNodeTravel; if(pTreeNodeTemp != NULL) { InitQueue(&qTemp); EnQueue(&qTemp,pTreeNodeTemp); while(!IsQueueEmpty(qTemp)) { DeQueue(&qTemp,&pTreeNodeTravel); cout<<pTreeNodeTravel->data<<" "; if(pTreeNodeTravel->lChild) { EnQueue(&qTemp,pTreeNodeTravel->lChild); } if(pTreeNodeTravel->rChild) { EnQueue(&qTemp,pTreeNodeTravel->rChild); } } } DestroyQueue(&qTemp); } bool InsertChild(pTreeNode pTreeNodeTemp,int flag,pTreeNode pTreeNew) { if(pTreeNodeTemp != NULL && pTreeNew != NULL && pTreeNew->rChild == NULL) { if(flag == 0)//左插 { pTreeNew->rChild = pTreeNodeTemp->lChild; pTreeNodeTemp->lChild = pTreeNew; }else//flag == 1,右插 { pTreeNew->rChild = pTreeNodeTemp->rChild; pTreeNodeTemp->rChild = pTreeNew; } return true; } return false; } bool DeleteChild(pTreeNode pTreeNodeTemp,int flag) { if(pTreeNodeTemp != NULL) { if(flag == 0)//删除左子树 { DestroyTree(&pTreeNodeTemp->lChild); }else//删除右子树 { DestroyTree(&pTreeNodeTemp->rChild); } return true; } return false; } void printNode(TElemType e) { cout<<"root = "; cout<<e<<" "; }