OJ14-01

读取字符串abcdefghij,然后层次建树建立一颗二叉树,然后前序遍历输出abdhiejcfg,注意不要打印前序遍历几个汉字

#include 
#include 

typedef char BiElemType;
typedef struct BiTNode {
    BiElemType data;
    struct BiTNode *lChild;
    struct BiTNode *rChild;//左右节点
} BiTNode, *BiTree;
//辅助队列
typedef struct tag {
    BiTree p;//树的某一个节点,指针类型,保存申请节点的指针
    struct tag *pnext;
} tag_t, *ptag_t;

//前序遍历,深度优先遍历
void preOrder(BiTree p) {
    if (p) {
        printf("%c",p->data);
        preOrder(p->lChild);
        //递归
        preOrder(p->rChild);
    }
}

void inOrder(BiTree p) {
    if (p) {
        inOrder(p->lChild);
        printf("%c", p->data);
        //递归
        inOrder(p->rChild);
    }
}

void postOrder(BiTree p) {
    if (p) {
        postOrder(p->lChild);
        postOrder(p->rChild);
        printf("%c", p->data);
        //递归
    }
}

int main() {
    BiTree p;//指向新申请的树节点
    BiTree tree = NULL;//初始化根节点
    //队头,队尾,新节点,新节点父元素
    ptag_t phead = NULL, ptail = NULL, listpnew = NULL, pucr = NULL;
    char c;
    while (scanf("%c", &c)) {
        if (c == '\n') {
            break;;
        }
        p = (BiTree) calloc(1, sizeof(BiTNode));
        p->data = c;
        listpnew = (ptag_t) calloc(1, sizeof(tag_t));//给队列节点申请空间
        listpnew->p = p;
        if (tree == NULL) {
            tree = p;
            //第一个节点既是队列头也是队列尾
            phead = listpnew;
            ptail = listpnew;
            pucr = listpnew;
        } else {
            ptail->pnext = listpnew;
            ptail = listpnew;
            //将数放入左孩子
            if (pucr->p->lChild == NULL) {
                pucr->p->lChild = p;
            } else if (pucr->p->rChild == NULL) {
                pucr->p->rChild = p;
                pucr = pucr->pnext;
            }
        }
    }
    preOrder(tree);
//    inOrder(tree);
//    postOrder(tree);
    return 0;
}

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