DS

数据结构-线性查找和二分查找

linear search and ninary search

Posted by xuepro on November 10, 2017

哈夫曼编码

// copyright by hwdong
#include <stdio.h>

typedef struct {
    double weight;
    int p, l, r;
}HNode;

typedef struct {
    HNode *data;
    int n;
}HuffmanTree;


void printHuffmanNodes(HuffmanTree &htree, const int M) {
    for (int i = 1; i < M; i++) {
        printf("%d: %f %d %d %d\n", i, htree.data[i].weight, htree.data[i].p, htree.data[i].l, htree.data[i].r);
    }
    printf("\n");
}

void select_tree_root(HuffmanTree &htree, const int M, int &m1, int &m2) {
    int i = 1;
    while (htree.data[i].p != 0) i++;
    m1 = i++;
    while (htree.data[i].p != 0) i++;
    m2 = i;
    if (htree.data[m2].weight < htree.data[m1].weight) {
        int t = m1; m1 = m2; m2 = t;
    }
    i++;
    for (; i < M; i++) {
        if (htree.data[i].p != 0) continue;
        if (htree.data[i].weight < htree.data[m1].weight) {
            m2 = m1;
            m1 = i;
        }
        else if (htree.data[i].weight < htree.data[m2].weight)
            m2 = i;
    }
    return;
}
void select_tree_root_(HuffmanTree &htree, const int M, int &m1, int &m2) {
    int i = 1;
    while (htree.data[i].p != 0) i++;
    m1 = i; i++;
    double m2_value = 1e10;
    for (; i < M; i++) {
        if (htree.data[i].p != 0) continue;
        if (htree.data[i].weight < htree.data[m1].weight) {
            m2 = m1;     m2_value = htree.data[m1].weight;
            m1 = i;
        }
        else if (htree.data[i].weight < m2_value) {
            m2 = i;      m2_value = htree.data[i].weight;
        }
    }
    return;
}
void select_tree_root__(HuffmanTree &htree, const int M, int &m1, int &m2) {
    double m1_value = 1e10, m2_value = 1e10;
    m1 = m2 = 0;
    for (int i = 1; i < M; i++) {
        if (htree.data[i].p != 0) continue;
        if (htree.data[i].weight < m1_value) {
            m2 = m1;    m2_value = m1_value;
            m1 = i;     m1_value = htree.data[m1].weight;
        }
        else if (htree.data[i].weight < m2_value) {
            m2 = i;     m2_value = htree.data[i].weight;
        }
    }
    return;
}

bool creatHuffmanTree(const double weights[], const int n, HuffmanTree &htree) {
    htree.data = new HNode[2 * n];  if (!htree.data) return false;
    htree.n = n;
    int i;
    for (i = 1; i <= n; i++) {
        htree.data[i].weight = weights[i - 1];
        htree.data[i].p = htree.data[i].l = htree.data[i].r = 0;
    }
    int n_2 = 2 * n - 1;
    for (i = n + 1; i <= n_2; i++) {
        int m1, m2;
        //  printHuffmanNodes(htree,i);
        select_tree_root_(htree, i, m1, m2);
        htree.data[i].weight = htree.data[m1].weight + htree.data[m2].weight;
        htree.data[i].l = m1; htree.data[i].r = m2;     htree.data[i].p = 0;
        htree.data[m1].p = i; htree.data[m2].p = i;
    }

    return true;
}

typedef char * HuffmanCode;
HuffmanCode * genHuffmanCode(HuffmanTree &htree) {
    HuffmanCode *codes = new HuffmanCode[htree.n];
    char *cd = new char[htree.n]; //
    for (int i = 1; i <= htree.n; i++) {
        int j = i, p, k = 0;
        while (htree.data[j].p != 0) {
            p = htree.data[j].p;
            if (htree.data[p].l == j)
                cd[k++] = '0';
            else cd[k++] = '1';

            j = p;
        }

        codes[i - 1] = new char[k + 1];
        for (j = k-1; j >=0; j--)
            codes[i - 1][k-1-j] = cd[j]; //codes[i - 1][j] = cd[j];
        codes[i - 1][k] = '\0';
    }
    delete[] cd;
    return codes;
}

void printHuffmanCode(HuffmanCode * codes, int n) {
    for (int i = 0; i < n; i++) {
        printf("%s\n", codes[i]);
    }
    printf("\n");
}

int main() {
    double weights[] = { 0.05,0.29,0.07,0.08,0.14,0.23,0.03,0.11 };
    const int n = 8;
    HuffmanTree htree;

    creatHuffmanTree(weights, n, htree);

    printHuffmanNodes(htree, 16);

    HuffmanCode * codes = genHuffmanCode(htree);

    printHuffmanCode(codes, n);
    return 0;
}

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