POJ1056 IMMEDIATE DECODABILITY【数据结构】
题目地址:http://poj.org/problem?id=1056
Description
An encoding of a set of symbols is said to be immediately decodable if no code for one symbol is the prefix of a code for another symbol. We will assume for this problem that all codes are in binary, that no two codes within a
set of codes are the same, that each code has at least one bit and no more than ten bits, and that each set has at least two codes and no more than eight.
Examples: Assume an alphabet that has symbols {A, B, C, D}
The following code is immediately decodable:
A:01 B:10 C:0010 D:0000
but this one is not:
A:01 B:10 C:010 D:0000 (Note that A is a prefix of C)
Examples: Assume an alphabet that has symbols {A, B, C, D}
The following code is immediately decodable:
A:01 B:10 C:0010 D:0000
but this one is not:
A:01 B:10 C:010 D:0000 (Note that A is a prefix of C)
Input
Write a program that accepts as input a series of groups of records from standard input. Each record in a group contains a collection of zeroes and ones representing a binary code for a different symbol. Each group is followed
by a single separator record containing a single 9; the separator records are not part of the group. Each group is independent of other groups; the codes in one group are not related to codes in any other group (that is, each group is to be processed independently).
Output
For each group, your program should determine whether the codes in that group are immediately decodable, and should print a single output line giving the group number and stating whether the group is, or is not, immediately decodable.
Sample Input
01 10 0010 0000 9 01 10 010 0000 9
Sample Output
Set 1 is immediately decodable Set 2 is not immediately decodable
Source
Pacific Northwest 1998
将各个编码序列作为二叉树的节点序列建立二叉树,并在过程中标记编码序列的最后一位,然后遍历二叉树,如果存在非叶节点的istail为1,即可说明存在某序列为另一序列的前缀序列。
将各个编码序列作为二叉树的节点序列建立二叉树,并在过程中标记编码序列的最后一位,然后遍历二叉树,如果存在非叶节点的istail为1,即可说明存在某序列为另一序列的前缀序列。
#include <stdio.h> #include <stdlib.h> typedef struct btree{ int istail; struct btree * left; struct btree * right; }BTree, *pBTree; char data[11]; BTree * root = NULL; void insert(char data[]){ int i= 0; BTree * p = NULL; if (root == NULL){ root = (BTree *)malloc(sizeof(BTree)); root->istail = 0; root->left = root->right = NULL; } p = root; while (data[i] != '\0'){ if (data[i] == '0'){ if (p->left != NULL){ p = p->left; } else{ p->left = (BTree *)malloc(sizeof(BTree)); p = p->left; p->istail = 0; p->left = p->right = NULL; } } else{ if (p->right != NULL){ p = p->right; } else { p->right = (BTree *)malloc(sizeof(BTree)); p = p->right; p->istail = 0; p->left = p->right = NULL; } } ++i; } p->istail = 1; } int isImmediately(BTree * root){ BTree * p = root; while (p != NULL){ if (p->istail == 1 && (p->left != NULL || p->right != NULL)) return 0; else return isImmediately(p->left) && isImmediately(p->right); } return 1; } void destoryBTree(pBTree * root){ if ((*root)->left) destoryBTree(&(*root)->left); if ((*root)->right) destoryBTree(&(*root)->right); free(*root); *root = NULL; } int main(void){ int count = 0; while (gets(data)){ if (data[0] == '9'){ if (isImmediately(root)) printf("Set %d is immediately decodable\n", ++count); else printf("Set %d is not immediately decodable\n", ++count); destoryBTree(&root); } else{ insert(data); } } return 0; }