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利用哈弗曼编码进行压缩

// sZipDemo.cpp : 定义控制台应用程序的入口点。
//

#include "stdafx.h"
#include "HuffmanTree.cpp"
#include "sZip.h"
#include 
#include 
using namespace std;

int _tmain(int argc, _TCHAR* argv[])
{
	
	char str1[10000];
	ifstream in;
	in.open("text.txt",ios::in|ios::binary);
		in>>str1;
	cout<<"成功读取text.doc!"< Tree;
	Tree.creat(tempstr,data,count);

	char charCount[256];
	for(int i = 0;count[i] != 0;i++){
		static int n = -1;
		if(count[i] < 10){                                                //个位
			charCount[++n] = count[i]+48;
			charCount[++n] = '#';
		}
		else if(count[i] >= 10 && count[i] < 100){                        //十位
			charCount[++n] = count[i]/10+48;
			charCount[++n] = count[i]%10+48;
			charCount[++n] = '#';
		}
		else if(count[i] >= 100 && count[i] < 1000){                      //百位
			charCount[++n] = count[i]/100+48;
			charCount[++n] = count[i]%100/10+48;
			charCount[++n] = count[i]%10+48;
			charCount[++n] = '#';
		}
		else{                                                             //千位
			charCount[++n] = count[i]/1000+48;
			charCount[++n] = count[i]%1000/100+48;
			charCount[++n] = count[i]%100/10+48;
			charCount[++n] = count[i]%10+48;
			charCount[++n] = '#';

		}
		charCount[n+1] = 0;
	}
	ofstream out;
	out.open("text11.txt",ios::out|ios::binary);
	out<
#pragma once

template 
struct HuffmanTreeNode{
	T data;                                                                         //数据
	unsigned int count;                                                             //权值
	char code[128];                                                                   //结点的哈弗曼编码
	HuffmanTreeNode *leftChild;                                                  //左子女
	HuffmanTreeNode *rightChild;                                                 //右子女
	HuffmanTreeNode *parent;                                                     //父节点
	HuffmanTreeNode():leftChild(NULL),rightChild(NULL),parent(NULL){}               //构造函数

	bool operator <=(HuffmanTreeNode &R){return count <= R.count;}                  //重载<=和>运算符
	bool operator >(HuffmanTreeNode &R){return count > R.count;}

};

template 
class HuffmanTree
{
public:
	HuffmanTree();
	HuffmanTree(HuffmanTree &t);
	~HuffmanTree(void);

	void printData();
	int getWPL();                                                                            //获取WPL                                                                //打开文件
	void creat(char str[],char data[],unsigned int count[]);                            //哈弗曼的建立
	void creat(char data[],unsigned int count[]);                                                //重载
	
	template 
	friend void findKey(HuffmanTreeNode *subTree,T key,char code[]){                    //寻找结点的code
		static T firstNodeData = subTree->data;
		if(subTree != NULL){
			if(subTree->data != key){
				findKey(subTree->leftChild,key,code);
				findKey(subTree->rightChild,key,code);
			}
			else{
				int i = 0;
				for(;subTree->code[i] != 0;i++)
					code[i] = subTree->code[i];
				code[i] = 0;
			}
		}
	}
	HuffmanTreeNode *root;
protected:
	
private:
	int WPL;
	void census(unsigned int count[],char data[],char str[],unsigned int &size);       //建立哈弗曼树时统计各字符出现的次数
	void deleteTree(HuffmanTreeNode *subTree);                                      //删除subTree结点的所有子结点
	void encode(HuffmanTreeNode *subTree,char code[] ,char m = 0);                //编码
	void calculateWPL(HuffmanTreeNode *subTree,int i = 0);                          //计算WPL
	void printCode(HuffmanTreeNode *subTree);                                       //输出哈弗曼编码的子函数
	void printData(HuffmanTreeNode *subTree);                                       //输出所有结点data和权值的子函数
};
#pragma once
#include "StdAfx.h"
#include "HuffmanTree.h"
#include "MinHeap.cpp"
#include 

template 
HuffmanTree::HuffmanTree(){
	WPL = 0;
	root = new HuffmanTreeNode;

};

template 
HuffmanTree::~HuffmanTree(){
	deleteTree(root);                                           //删除哈弗曼树
}

template 
void HuffmanTree::creat(char str[],char data[],unsigned int count[]){
    unsigned int size;                                          //字符的个数
	for(unsigned int i = 0; i < 128; i++)                       //count的初始化
		count[i] = 0;         

	census(count,data,str,size);
	minHeap> hp;
	HuffmanTreeNode *parent, *first, *second;
	HuffmanTreeNode  *work;

	for(unsigned int i = 0; i < size; i++){                                      //把每个元素都插入最小堆中
		work = new HuffmanTreeNode;
		work->data = data[i];
		work->count = count[i];
		work->leftChild = NULL;
		work->rightChild = NULL;
		work->parent = NULL;
		hp.insert(*work);
	}

	for(unsigned int i = 0; i < size-1; i++){
		parent = new HuffmanTreeNode;
		first = new HuffmanTreeNode;
		second = new HuffmanTreeNode;
		hp.removeMin(*first);                                         //每次从最小堆中取出两个最小的数
		hp.removeMin(*second);
		
		parent->leftChild = first;                                    //parent作为他们的父节点
		parent->rightChild = second;
		parent->count = first->count + second->count;
		parent->data = '#';                                           //parent不是根结点所以把它的data设为'#'
		first->parent = parent;
		second->parent = parent;
		hp.insert(*parent);                                           //再把parent插入最小堆中,进行循环判断

	}
	root = parent;                                                    //最后一个parent就是根结点

	char code[128];
	for(unsigned int i = 0;i < 128; i++)
		code[i] = 0;
	encode(root,code);                                                //对结点进行哈弗曼编码(空的地方取0)

};

template 
void HuffmanTree::creat(char data[],unsigned int count[]){
	unsigned int size = 0;
	for(unsigned int i = 0; count[i] != 0; i++)
		size++;

	minHeap> hp;
	HuffmanTreeNode *parent, *first, *second;
	HuffmanTreeNode  *work;

	for(unsigned int i = 0; i < size; i++){                                      //把每个元素都插入最小堆中
		work = new HuffmanTreeNode;
		work->data = data[i];
		work->count = count[i];
		work->leftChild = NULL;
		work->rightChild = NULL;
		work->parent = NULL;
		hp.insert(*work);
	}

	for(unsigned int i = 0; i < size-1; i++){
		parent = new HuffmanTreeNode;
		first = new HuffmanTreeNode;
		second = new HuffmanTreeNode;
		hp.removeMin(*first);                                         //每次从最小堆中取出两个最小的数
		hp.removeMin(*second);
		
		parent->leftChild = first;                                    //parent作为他们的父节点
		parent->rightChild = second;
		parent->count = first->count + second->count;
		parent->data = '#';                                           //parent不是根结点所以把它的data设为'#'
		first->parent = parent;
		second->parent = parent;
		hp.insert(*parent);                                           //再把parent插入最小堆中,进行循环判断

	}
	root = parent;                                                    //最后一个parent就是根结点

	char code[128];
	for(unsigned int i = 0;i < 128; i++)
		code[i] = 0;
	encode(root,code);                                                //对结点进行哈弗曼编码(空的地方取0)
}

template 
void HuffmanTree::deleteTree(HuffmanTreeNode *subTree){
	if(subTree != NULL){
		deleteTree(subTree->leftChild);                          //后序遍历来删除结点
		deleteTree(subTree->rightChild);
		delete subTree;
	}
}

template 
void HuffmanTree::census(unsigned int count[],char data[],char str[],unsigned int &size){
	//用于统计字符出现的次数

	for(int i = 0; str[i] != 0;i++){
		if(str[i] == '#')                        //当出现的是已出现过的字符时就执行下次循环
			continue;

		static int n = 0;
		count[n]++;                               //第一次出现时加一
		data[n] = str[i];
		for(int j = 0; str[j] != 0;j++){
			if(str[i] == str[j] && i != j){
				count[n]++;                    //每次出现重复的时候加一并且
				str[j] = '#';                     //表明已出现过
			}
		}
		data[++n] = 0;
		size = n;
	}
}

template 
void HuffmanTree::encode(HuffmanTreeNode *subTree,char code[] ,char m = 0){

	if(subTree != NULL){
		int j;
		for(j = 0;code[j] != 0;j++){
			subTree->code[j] = code[j];
		}
		for(j = 0;code[j] != 0;j++){
		}
		subTree->code[j] = m;
		subTree->code[j+1] = 0;
		encode(subTree->leftChild,subTree->code,'0');
		encode(subTree->rightChild,subTree->code,'1');
	}
}

template 
void HuffmanTree::calculateWPL(HuffmanTreeNode *subTree,int i = 0){
	if(subTree != NULL){
		if(subTree->data != '#')
			WPL += i*subTree->count;                     //i为当前层数,count为结点权值
		calculateWPL(subTree->leftChild,++i);            //前序遍历
		i--;
		calculateWPL(subTree->rightChild,++i);
		i--;
	}
}

template 
int HuffmanTree::getWPL(){
	return WPL;
}
#pragma once

#define DafaultSize 50

template
class minHeap{
public:
	minHeap(int size = DafaultSize);
	~minHeap();

	bool insert(const E& x);
	bool removeMin(E& x);

private:
	E *heap;
	int currentSize;
	int maxHeapSize;
	void siftDown(int start, int m);
	void siftUp(int start);
};
#pragma once
#include "StdAfx.h"
#include "MinHeap.h"

template
minHeap::minHeap(int size){
	maxHeapSize = (DafaultSize
minHeap::~minHeap(){
	delete heap;
}

template
void minHeap::siftDown(int start, int m){
	int i = start;                       //初始位置
	int j = 2*i+1;                       //j是i的左子女位置
	E temp = heap[i];   
	while(j <= m){ 
		if(j heap[j+1])   //左子女大于右子女时,j指向右子女
			j++;
		if(temp <= heap[j])
			break;
		else{                            //大则向上移
			heap[i] = heap[j];
			i = j;
			j = 2*j+1;
		}
	}
	heap[i] = temp;
};

template
void minHeap::siftUp(int start){
	int j = start;
	int i = (j-1)/2;                //i的左子女是j
	E temp = heap[j];
	while(j>0){
		if(heap[i] <= temp)        //如果父节点大
			break;
		else{                      //如果父节点小,上滑
			heap[j] = heap[i];     
			j = i;
			i = (i-1)/2;
		}
	}
	heap[j] = temp;
};

template
bool minHeap::insert(const E& x){
	if(currentSize == maxHeapSize){     //堆满时
	//	cout<<"堆已满"<
bool minHeap::removeMin(E& x){
	if(currentSize == 0){                  //堆空时
	//	cout<<"堆为空!!"<
#pragma once
#include "HuffmanTree.cpp"
class sZip
{
public:
	sZip(void);
	~sZip(void);
	void zip(char str1[],char str2[],HuffmanTreeNode* subTree,int &size,char data[]);
	void unzip(char str1[],char str2[]);
private:
	bool codeEqual(char code1[],char code2[][128],int &num);
	void getHuffCode(HuffmanTreeNode* subTree,char code[][128],char data[]);
	void strBinary(char str[],int &size);
	void binaryStr(char str1[]);
};
#include "StdAfx.h"
#include "sZip.h"
#include 
using namespace std;

sZip::sZip(void){

}


sZip::~sZip(void)
{
}

void sZip::zip(char str1[],char str2[],HuffmanTreeNode* subTree,int &size,char data[]){
	char code[128][128];
	
	getHuffCode(subTree,code,data);                                            //获取subTree的哈弗曼编码
	unsigned int i = 0;
    unsigned int n = -1;
	for(; str1[i] != 0 ;i++){                                                //遍历str1,把里面的字符转化为哈弗曼编码存在str2中
		int j = 0;
		while(data[j] != str1[i]){
			j++;
			if(data[j] == 0)
				break;
		}
		if(data[j] == str1[i]){
				for(int count = 0;code[j][count] != 0;count++)
					str2[++n] = code[j][count];
			str2[n+1]=0;
		}
	}
		strBinary(str2,size);                                                   //把str2的每一个字符变成每一个bit,8个bit合成一个字符
}

void sZip::unzip(char str1[],char str2[]){

	unsigned int count[128];
	for(int i = 0;i < 127;i++)
		count[i] = 0;
	char code[128][128];
	char data[128];
	for(int i = 0;i < 128;i++)
		code[i][0] = 0;
	int i = 0;

	for(;str1[i] != '#';i++)
		data[i] = str1[i];
	data[i] = 0;
	int j = i+2;
	i = -1;
	while(1){
		if(str1[j] != '#' && str1[j+1] == '#')                                                    //个位
			count[++i] = str1[j]-48;
		else if(str1[j+1] != '#' && str1[j+2] == '#'){                                            //十位
			count[++i] = int(str1[j]-48)*10+int(str1[j+1]-48);
			j++;
		}
		else if(str1[j+1] != '#' && str1[j+2] != '#' && str1[j+3] == '#'){                        //百位
			count[++i] = int(str1[j]-48)*100+int(str1[j+1]-48)*10+int(str1[j+2]-48);
			j = j+2;
		}
		else if(str1[j+1] != '#' && str1[j+2] != '#' && str1[j+3] != '#'&& str1[j+4] =='#'){      //千位
			count[++i] = int(str1[j]-48)*1000+int(str1[j+1]-48)*100+int(str1[j+2]-48)*10+int(str1[j+3]-48);
		}
		else if(str1[j] == '#' && str1[j+1] == '#')                                               //读完
			break;
		else
			cout<<"读取错误"< tree;
	tree.creat(data,count);
	getHuffCode(tree.root,code,data);

	j = j+2;
	i = -1;
	char tempchar[100000];
	for(;str1[j] != 0;j++)
		tempchar[++i] = str1[j];
	tempchar[i+1] = 0;
	binaryStr(tempchar);                                       //把压缩文件转化为二进制编码

	char tempcode[128];
	j = -1;
	int num;
	int n = -1;
	i = 0;
	for(;tempchar[i] != 0;i++){                            //遍历tempchar,把它从哈弗曼编码转化为对应的字符
		tempcode[++n] = tempchar[i];
		tempcode[n+1] = 0;
		if(codeEqual(tempcode,code,num)){
			str2[++j] = data[num];
			for(n = 0;tempcode[n] != 0;n++)               //重置tempcode
				tempcode[n] = 0;
			n = -1;
		}
		else
			continue;
	}
	str2[++j] = 0;
}

void sZip::getHuffCode(HuffmanTreeNode* subTree,char code[][128],char data[]){
     for(int i = 0;data[i] != 0;i++)
		 findKey(subTree,data[i],code[i]);
}

void sZip::strBinary(char str[],int &size){
	char str2[100000];
	char bit[8];
	int n = 0;
	int count = 0;
	while(str[n] == '1' || str[n] == '0'){
		for(int i = 0;i < 8 ;i++){
			if(str[n] == 0){
				str[n] = '0';
				str[n+1] = 0;
			}
			bit[i] = str[n];
			n++;
		}
		str2[count] = 0;
		for(int i = 0;i < 8 ;i++){
			if(bit[i] == '1'){
				char temp = 1;
				str2[count] = (str2[count]<<1)|temp;                  //给它最后一位加上一即:左移一位,然后和00000001求或
			}
			else
				str2[count] = (str2[count]<<1);
		}
		count++;
	}
	for(int i = 0;i <= count;i++)
		str[i] = str2[i];
	for(int i = count;str[i] != 0;i++)
		str[i] = 0;
	size = count;
}

void sZip::binaryStr(char str1[]){
	char str2[100000];
	int i = -1;
	int n = 0;
	while(str1[n] != 0){
		int temp[8];
		int tempchar = abs(str1[n]);
		for(int count = 0;count < 8;count++){
			temp[count] = tempchar%2;
			tempchar /= 2;
		}
		if(str1[n]<0 && str1[n] > -128){                           //当为负数时,二进制为正数第一位为1(符号位)的反码最后一位加一(补码)
			temp[7] = 1;
			for(int count = 0;count < 7;count++){                  //求反码
				if(temp[count] == 0)
					temp[count] = 1;
				else
					temp[count] = 0;
			}
			int x = 1;                                            //进位数
			for(int count = 0;count < 8;count++){                 //末位加一                                             
				if(temp[count] == 0){
					if(x == 1){
						temp[count] = 1;
						x = 0;
					}
				}
				else
					if(x == 1)
						temp[count] = 0;
			}
		}
		for(int count = 7;count != -1;count--)                    
			str2[++i] = char(temp[count]+48);
		n++;
	}
	str2[++i] = 0;
	for(int count = 0;count <= i;count++)
		str1[count] = str2[count];
}

bool sZip::codeEqual(char code1[],char code2 [][128],int &num){
	unsigned int size1 = 0;
	unsigned int size2 = 0;
	for(int i = 0;code1[i] != 0;i++)
		size1++;
	for(int i = 0;code2[i][0] != 0;i++)
		size2++;

	for(int i = 0;i < size2;i++){
		int j = 0;
		int size3 = 0;
		for(int n = 0;code2[i][n] != 0;n++)
		size3++;
		for(;j < size1;j++){
			if(code1[j] != code2[i][j])
			break;                                          //有一位不等于就直接跳出
		}
		if(j == size1 && j == size3){
			num = i;
			return true;
		}
	}
	return false;
}

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