文件压缩项目
#include#include #include #include #include #include using namespace std; #define _CRT_SECURE_NO_DEPRECATE 1 #define _CRT_NONSTDC_NO_DEPRECATE 1 typedef long long LongType; struct CharInfo { char _ch; LongType _count; string _code; CharInfo(LongType count = 0) :_count(count) {} bool operator<(const CharInfo& info)const { return _count < info._count; } CharInfo operator+(const CharInfo& info)const { return CharInfo(_count + info._count); } bool operator!=(const CharInfo& info)const { return _count != info._count; } }; template struct HuffmanTreeNode { HuffmanTreeNode * _left; HuffmanTreeNode * _right; T _weight;//权重 HuffmanTreeNode (T& weight) :_left(NULL) , _right(NULL) , _weight(weight) {} }; template > class Heap { public: //vector调用自己的构造函数 Heap() {} Heap(T* a, size_t size) { for (size_t i = 0; i < size; ++i) _array.push_back(a[i]); //size-1是数组最大下标,再减1除二是父节点下标 for (int i = (_array.size() - 1 - 1) / 2; i >= 0; --i) { AdjustDown(i); } } void Push(const T& x) { _array.push_back(x); AdjustUp(_array.size() - 1); } void Pop() { if (_array.size()>0) { swap(_array[_array.size() - 1], _array[0]); _array.pop_back(); AdjustDown(0); } } int Size() { return _array.size(); } T Top() { if (Size() > 0) { return _array[0]; } } protected: void AdjustDown(int prtIndex) { int leftIndex = 0; while (prtIndex<_array.size()) { leftIndex = prtIndex * 2 + 1; //此处应对称方法,传递的参数,比较大小: if (leftIndex + 1 < _array.size() && _com(_array[leftIndex + 1], _array[leftIndex])) leftIndex = leftIndex + 1; if (leftIndex<_array.size() && _com(_array[leftIndex], _array[prtIndex])) { swap(_array[prtIndex], _array[leftIndex]); prtIndex = leftIndex; } else break; } } void AdjustUp(int chiIndex) { int parIndex = (chiIndex - 1) / 2; while (chiIndex > 0)//父节点不会小于0,(0-1)/2等于0,此处应用chiIndex来判断 { if (_com(_array[chiIndex], _array[parIndex])) { swap(_array[parIndex], _array[chiIndex]); chiIndex = parIndex; parIndex = (chiIndex - 1) / 2; } else break; } } protected: vector _array; Comp _com; }; template class HuffmanTree { typedef HuffmanTreeNode Node; public: HuffmanTree(T* a,int size, T& invalid) :_root(NULL) { struct HuffmanCompare { bool operator()(Node*& l,Node*& r) { return l->_weight < r->_weight; } }; Heap minHeap; for (int i = 0; i < size; ++i) { if (a[i] != invalid) minHeap.Push(new Node(a[i])); } Node *left,*right,*parent;//指针定义,*和名字在一起 while (minHeap.Size()>1) { left = minHeap.Top(); minHeap.Pop(); right = minHeap.Top(); minHeap.Pop(); parent = new Node(left->_weight+ right->_weight); parent->_left = left; parent->_right = right; minHeap.Push(parent); } _root = minHeap.Top(); minHeap.Pop(); } Node* GetRoot() { return _root; } private: Node* _root; }; class FileCompress { protected: CharInfo _infos[256];//存储所有字符 public: FileCompress() { for (int i = 0; i < 256; ++i) { _infos[i]._ch = i; _infos[i]._count = 0; } } void Compress(const char* filename) { FILE* fout = fopen(filename, "r"); assert(fout);//判断指针非空 int ch = fgetc(fout);//读取到EOF while (ch != EOF) { _infos[(unsigned char)ch]._count++; ch = fgetc(fout); } //建哈夫曼树 CharInfo invalid; HuffmanTree tree(_infos, 256, invalid); //生成哈夫曼编码 string code; GenerateHuffmanCode(tree.GetRoot(), code); string compressFilename = filename; compressFilename += ".compress"; FILE* fin = fopen(compressFilename.c_str(), "w"); assert(fin); fseek(fout, 0, SEEK_SET); ch = fgetc(fout); int value = 0; int size = 0; while (ch != EOF) { string& _c_code = _infos[(unsigned char)ch]._code; for (int i = 0; i < _c_code.size(); ++i) { value <<= 1; if (_c_code[i] == '1') value |= 1; ++size; if (size == 8) { fputc(value, fin); size = 0; value = 0; } } ch = getc(fout); } //不满8位,低位补0 if (size) { value <<= (8 - size); fputc(value, fin); } //写配置文件 string configName = filename; configName += ".config"; FILE* fInconfig = fopen(configName.c_str(),"w"); assert(fInconfig); for (int i = 0; i < 256; ++i) { string line; char _buf[20]; if (_infos[i]._count>0) { memset(_buf, 0, sizeof(_buf)); line += _infos[i]._ch; line += ','; line+=_itoa(_infos[i]._count, _buf, 10); line += '\n'; fputs(line.c_str(), fInconfig); } } fclose(fin); fclose(fout); fclose(fInconfig); } void UnCompress(const char* filename) { string compressFilename = filename; compressFilename += ".compress"; FILE* fout = fopen(compressFilename.c_str(), "r"); assert(fout); int ch = getc(fout); //重建哈夫曼树 string configFilename = filename; configFilename += ".config"; FILE* foutConfig = fopen(configFilename.c_str(), "r"); assert(foutConfig); //解析配置文件 string line; while (ReadLine(foutConfig, line)) { if (line.empty())//空行 { line += '\n'; } else { // _infos[(unsigned char)line[0]]._count = atoi(&line[2]); _infos[(unsigned char)line[0]]._count = atoi(line.substr(2).c_str()); line.clear(); } } CharInfo invalid; HuffmanTree tree(_infos, 256, invalid); //解压缩不需要哈夫曼编码 HuffmanTreeNode * root = tree.GetRoot(); HuffmanTreeNode * cur = root; string uncompressFilename = filename; uncompressFilename += ".uncompress"; FILE* fin = fopen(uncompressFilename.c_str(), "w"); assert(fin); int pos = 7; while (ch != EOF) { if (ch&(1 << pos)) cur = cur->_right; else cur = cur->_left; if (cur->_left == NULL&&cur->_right == NULL) { fputc(cur->_weight._ch, fin); cur = root; } --pos; if (pos < 0) { ch = getc(fout); pos = 7; } } } bool ReadLine(FILE* fout, string& line) { int ch = fgetc(fout); while (ch != EOF&&ch != '\n') { line += ch; ch = fgetc(fout); } if (ch == '\n') return true; else return false; } void GenerateHuffmanCode(HuffmanTreeNode * root, string code) { if (root == NULL) return; if (root->_left == NULL&&root->_right == NULL) { _infos[root->_weight._ch]._code = code; return; } GenerateHuffmanCode(root->_left, code + '0'); GenerateHuffmanCode(root->_right, code + '1'); } }; void TestCompress() { FileCompress f; f.Compress("input.txt"); } void TestUnCompress() { FileCompress f; f.UnCompress("input.txt"); } #include"Huffman.h" int main() { TestCompress(); TestUnCompress(); system("pause"); return 0; }
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