题目描述
In 1953, David A. Huffman published his paper "A Method for the Construction of Minimum-Redundancy Codes", and hence printed his name in the history of computer science. As a professor who gives the final exam problem on Huffman codes, I am encountering a big problem: the Huffman codes are NOT unique. For example, given a string "aaaxuaxz", we can observe that the frequencies of the characters 'a', 'x', 'u' and 'z' are 4, 2, 1 and 1, respectively. We may either encode the symbols as {'a'=0, 'x'=10, 'u'=110, 'z'=111}, or in another way as {'a'=1, 'x'=01, 'u'=001, 'z'=000}, both compress the string into 14 bits. Another set of code can be given as {'a'=0, 'x'=11, 'u'=100, 'z'=101}, but {'a'=0, 'x'=01, 'u'=011, 'z'=001} is NOT correct since "aaaxuaxz" and "aazuaxax" can both be decoded from the code 00001011001001. The students are submitting all kinds of codes, and I need a computer program to help me determine which ones are correct and which ones are not.
Input Specification:
Each input file contains one test case. For each case, the first line gives an integer N (2≤N≤63), then followed by a line that contains all the N distinct characters and their frequencies in the following format:
c[1] f[1] c[2] f[2] ... c[N] f[N]
where c[i] is a character chosen from {'0' - '9', 'a' - 'z', 'A' - 'Z', '_'}, and f[i] is the frequency of c[i] and is an integer no more than 1000. The next line gives a positive integer M (≤1000), then followed by M student submissions. Each student submission consists of N lines, each in the format:
c[i] code[i]
where c[i] is the i-th character and code[i] is an non-empty string of no more than 63 '0's and '1's.
Output Specification:
For each test case, print in each line either "Yes" if the student's submission is correct, or "No" if not.
Note: The optimal solution is not necessarily generated by Huffman algorithm. Any prefix code with code length being optimal is considered correct.
Sample Input:
7
A 1 B 1 C 1 D 3 E 3 F 6 G 6
4
A 00000
B 00001
C 0001
D 001
E 01
F 10
G 11
A 01010
B 01011
C 0100
D 011
E 10
F 11
G 00
A 000
B 001
C 010
D 011
E 100
F 101
G 110
A 00000
B 00001
C 0001
D 001
E 00
F 10
G 11
Sample Output:
Yes
Yes
No
No
解题思路
根据题意,只要学生输入的WPL和通过哈夫曼树计算出来的WPL相同,并且满足前缀码的规则就输出Yes,否则输出No。于是我们先根据字符出现次数计算出最小带权路径长度,然后与学生输入比较,若相同则判断是否满足前缀码的规则。最小带权路径长度可以通过一个小顶堆计算出,而判断前缀码我使用了暴力法。
代码
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#define MAXSIZE 63
struct MinHeap {
int data[MAXSIZE + 1];
int size;
};
typedef struct MinHeap *MinHeap;
MinHeap createHeap() {
MinHeap minHeap = (MinHeap) malloc(sizeof(struct MinHeap));
minHeap->data[0] = 0; //哨兵值
minHeap->size = 0;
return minHeap;
}
void insertHeap(MinHeap minHeap, int data) {
if (minHeap->size == MAXSIZE) return;
minHeap->data[++minHeap->size] = data;
int i = minHeap->size;
for ( ; minHeap->data[i/2] > data; i /= 2) {
minHeap->data[i] = minHeap->data[i/2];
}
minHeap->data[i] = data;
}
int deleteHeap(MinHeap minHeap) {
if (minHeap->size == 0) return 0;
int parent, child;
int ret = minHeap->data[1];
minHeap->data[1] = minHeap->data[minHeap->size--]; //把最后一个元素放到堆顶
for (parent = 1; 2 * parent <= minHeap->size; parent = child) {
child = 2 * parent;
//存在右儿子并且右儿子更小
if (child < minHeap->size && minHeap->data[child+1] < minHeap->data[child]) {
child = child + 1;
}
//父结点更大
if (minHeap->data[parent] > minHeap->data[child]) {
int tmp = minHeap->data[parent];
minHeap->data[parent] = minHeap->data[child];
minHeap->data[child] = tmp;
} else {
break;
}
}
return ret;
}
//不需要构建哈夫曼树,直接算出WPL
int getWPL(MinHeap minHeap) {
int WPL = 0, size = minHeap->size;
int min1, min2;
for (int i = 1; i < size; i++) { //没有算哈夫曼树的根结点,其余结点的和刚好等于WPL,很巧妙
min1 = deleteHeap(minHeap);
min2 = deleteHeap(minHeap);
insertHeap(minHeap, min1 + min2);
WPL += min1 + min2;
}
return WPL;
}
//判断两个字符串是否有相同前缀
int samePrefix(char *str1, char *str2) {
while (str1 && str2 && *str1 == *str2) {
str1++; str2++;
}
if (*str1 == '�' || *str2 == '�') {
return 1;
} else {
return 0;
}
}
//判断一组字符串是否满足前缀码
int isPrefixCode(char strs[][MAXSIZE], int n) {
for (int i = 0; i < n; i++) {
for (int j = i + 1; j < n; j++) {
if (samePrefix(strs[i], strs[j]))
return 0;
}
}
return 1;
}
int main() {
int N, M, WPL, data[MAXSIZE];
char ch;
MinHeap minHeap = createHeap();
scanf("%d", &N);
for (int i = 0; i < N; i++) {
scanf(" %c %d", &ch, &data[i]);
insertHeap(minHeap, data[i]);
}
WPL = getWPL(minHeap);
scanf("%d", &M);
for (int i = 0; i < M; i++) {
int thisWPL = 0;
char strs[MAXSIZE][MAXSIZE];
for (int j = 0; j < N; j++) {
scanf(" %c %s", &ch, strs[j]);
thisWPL += data[j] * strlen(strs[j]);
}
if (thisWPL == WPL && isPrefixCode(strs, N)) {
printf("Yes
");
} else {
printf("No
");
}
}
return 0;
}