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广义表是非线性结构,是线性表的一种扩展,是有N个元素组成的有限序列。
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广义表的定义是递归的,因为在表的描述中又得到了表,允许表中有表。
<1>A=();
<2>B=(a, b);
<3>C=(a, b,(c, d));
<4>D=(a, b,(c, d),(e, (f), h))
<5>E = (((),()))
那么广义表如何实现呢?
我们使用递归来实现它~~~~
#pragma once; #includeusing namespace std; #include enum Type { HEAD, VALUE, SUB, }; struct GeneralizedNode { Type _type; //结点类型 GeneralizedNode* _next; union { char _value; //若为值类型结点,则存储值 GeneralizedNode* _sublink; }; GeneralizedNode(Type type = HEAD,char value=0) :_type(type) , _next(NULL) { if (_type == VALUE) { _value = value; } else if (_type == SUB) { _sublink = NULL; } } }; class Generalized { public: Generalized() :_head(NULL) {} Generalized(const char* str) :_head(NULL) { _head = _CreateLized(str); } Generalized(const Generalized& g) { _head = _Copy(g._head); } Generalized& operator=(const Generalized& g) { if (_head != g._head) { GeneralizedNode* cur = _head; _Destory(_head); _head = _Copy(g._head); return *this; } } ~Generalized() { _Destory(_head); } public: void Print() { _Print(_head); cout << endl; } size_t Size() { size_t count = _Size(_head); return count; } size_t Depth() { size_t dep = _Depth(_head); return dep; } protected: //创建表 GeneralizedNode* _CreateLized(const char*& str)//传参用引用是为了防止str在退出一层 { //递归时发生回退 assert(str&&*str == '('); //若当前str是不为‘(’,则传参错误 str++; GeneralizedNode* head = new GeneralizedNode(HEAD); GeneralizedNode* cur = head; while (*str != '\0') { if (_Isvalue(*str)) { GeneralizedNode* tmp = new GeneralizedNode(VALUE, *str); cur->_next = tmp; cur = cur->_next; str++; continue; } else if (*str == '(') //遇到子表 { GeneralizedNode* sub = new GeneralizedNode(SUB); cur->_next = sub; cur = cur->_next; sub->_sublink = _CreateLized(str); //进入递归创建子表 continue; } else if (*str == ')') //一个表的结束 { str++; return head; } else { str++; continue; } assert(false); //强制判断程序是否出错 return head; } } //判断当前值是否为有效值 bool _Isvalue(const char c) { if ((c <= '9'&&c >= '0') || (c <= 'z'&&c >= 'a') || (c <= 'Z'&&c >= 'A')) { return true; } else { return false; } } //拷贝一个表 GeneralizedNode* _Copy(GeneralizedNode* head) { GeneralizedNode* Head = new GeneralizedNode(HEAD); //_head = Head; GeneralizedNode* cur = head->_next; GeneralizedNode* tmp = Head; while (cur) { if (cur->_type == VALUE) { tmp->_next = new GeneralizedNode(VALUE, cur->_value); cur = cur->_next; tmp = tmp->_next; } else if (cur->_type == SUB) { tmp->_next = new GeneralizedNode(SUB); //cur = cur->_next; tmp = tmp->_next; tmp->_sublink = _Copy(cur->_sublink); //进入拷贝表的递归 cur = cur->_next; } } return Head; } //打印表 void _Print(GeneralizedNode* head) { GeneralizedNode* cur = head; while (cur) { if (cur->_type == HEAD) { cout << "(" << " "; cur = cur->_next; continue; } else if ((cur->_type == VALUE) && (cur->_next != NULL)) { cout << cur->_value << " " << ","; cur = cur->_next; continue; } else if ((cur->_type == VALUE) && (cur->_next == NULL))//遇到一个表的最后一个节点 { cout << cur->_value << " "; cur = cur->_next; continue; } else if (cur->_type == SUB) { _Print(cur->_sublink); //进入打印表的递归 cur = cur->_next; if (cur != NULL) //说明此时的表并不是最外层的表,需要打印‘,’ { cout << ","; } continue; } } if (cur == NULL) { cout << ")"; return; } } //销毁表 void _Destory(GeneralizedNode* head) { GeneralizedNode* cur = head; while (cur) { if (cur->_type == SUB) { _Destory(cur->_sublink); //进入销毁表的递归 } GeneralizedNode* del = cur; cur = cur->_next; delete del; } return; } //求表的大小 size_t _Size(GeneralizedNode* head) { size_t count = 0; GeneralizedNode* cur = head; while (cur) { if (cur->_type == VALUE) { count++; cur = cur->_next; continue; } if (cur->_type == SUB) { count += _Size(cur->_sublink); //进入递归 cur = cur->_next; continue; } cur = cur->_next; } return count; } //求表的深度 size_t _Depth(GeneralizedNode* head) { assert(head); size_t dep = 1; size_t Dep = 0; GeneralizedNode* cur = head; while (cur) { if (cur->_type == SUB) { dep += _DepthSUB(cur->_sublink); } cur = cur->_next; if (Dep < dep) //用Dep来保存最深的深度 { Dep = dep; dep = 1; } } return Dep; } //求子表长度 size_t _DepthSUB(GeneralizedNode* sub) { GeneralizedNode* cur = sub; size_t dep = 1; while (cur) { if (cur->_type == SUB) { dep = dep + _DepthSUB(cur->_sublink); } cur = cur->_next; } return dep; } protected: GeneralizedNode* _head; };
广义表的函数都用了递归,所以会比较绕。小伙伴们好好看,不懂可以来交流啊。写的不好多多指教~~~~
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