https://baike.baidu.com/item/%E5%B9%B3%E8%A1%A1%E4%BA%8C%E5%8F%89%E6%A0%91/10421057?fr=aladdin
https://www.cnblogs.com/huangxincheng/archive/2012/07/22/2603956.html
http://blog.csdn.net/programmingring/article/details/37969745
#include <stdio.h> #include <stdlib.h> /************************************************************************/ /* 平衡二叉树---AVL */ /************************************************************************/ #define LH +1 #define EH 0 #define RH -1 typedef int ElemType; typedef struct BSTNode{ ElemType data; int bf;//balance flag struct BSTNode *lchild,*rchild; }*PBSTree; void R_Rotate(PBSTree* p) { PBSTree lc = (*p)->lchild; (*p)->lchild = lc->rchild; lc->rchild = *p; *p = lc; } void L_Rotate(PBSTree* p) { PBSTree rc = (*p)->rchild; (*p)->rchild = rc->lchild; rc->lchild = *p; *p = rc; } void LeftBalance(PBSTree* T) { PBSTree lc,rd; lc = (*T)->lchild; switch (lc->bf) { case LH: (*T)->bf = lc->bf = EH; R_Rotate(T); break; case RH: rd = lc->rchild; switch(rd->bf) { case LH: (*T)->bf = RH; lc->bf = EH; break; case EH: (*T)->bf = lc->bf = EH; break; case RH: (*T)->bf = EH; lc->bf = LH; break; } rd->bf = EH; L_Rotate(&(*T)->lchild); R_Rotate(T); break; } } void RightBalance(PBSTree* T) { PBSTree lc,rd; lc= (*T)->rchild; switch (lc->bf) { case RH: (*T)->bf = lc->bf = EH; L_Rotate(T); break; case LH: rd = lc->lchild; switch(rd->bf) { case LH: (*T)->bf = EH; lc->bf = RH; break; case EH: (*T)->bf = lc->bf = EH; break; case RH: (*T)->bf = EH; lc->bf = LH; break; } rd->bf = EH; R_Rotate(&(*T)->rchild); L_Rotate(T); break; } } int InsertAVL(PBSTree* T,ElemType e,bool* taller) { if ((*T)==NULL) { (*T)=(PBSTree)malloc(sizeof(BSTNode)); (*T)->bf = EH; (*T)->data = e; (*T)->lchild = NULL; (*T)->rchild = NULL; } else if (e == (*T)->data) { *taller = false; return 0; } else if (e < (*T)->data) { if(!InsertAVL(&(*T)->lchild,e,taller)) return 0; if(*taller) { switch ((*T)->bf) { case LH: LeftBalance(T); *taller = false; break; case EH: (*T)->bf = LH; *taller = true; break; case RH: (*T)->bf = EH; *taller = false; break; } } } else { if(!InsertAVL(&(*T)->rchild,e,taller)) return 0; if (*taller) { switch ((*T)->bf) { case LH: (*T)->bf = EH; *taller = false; break; case EH: (*T)->bf = RH; *taller = true; break; case RH: RightBalance(T); *taller = false; break; } } } return 1; } bool FindNode(PBSTree root,ElemType e,PBSTree* pos) { PBSTree pt = root; (*pos) = NULL; while(pt) { if (pt->data == e) { //找到节点,pos指向该节点并返回true (*pos) = pt; return true; } else if (pt->data>e) { pt = pt->lchild; } else pt = pt->rchild; } return false; } void InorderTra(PBSTree root) { if(root->lchild) InorderTra(root->lchild); printf("%d ",root->data); if(root->rchild) InorderTra(root->rchild); } int main() { int i,nArr[] = {1,23,45,34,98,9,4,35,23}; PBSTree root=NULL,pos; bool taller; for (i=0;i<9;i++) { InsertAVL(&root,nArr[i],&taller); } InorderTra(root); if(FindNode(root,103,&pos)) printf(" %d ",pos->data); else printf(" Not find this Node "); return 0; }