【牛客带你学编程C++方向】项目练习第3期（截止3.27）

C++方向活动帖：【牛客带你学编程】【C++方向】0基础小白入门培养计划！

牛客带你学编程活动总贴：【牛客带你学编程】0基础小白入门培养计划！

C++项目练习：第3期

练习时间：3月13日-3月27日（2周）

活动规则：

每一期一个项目，届时会开新帖发布
学员直接将答案提交到该贴评论区即可
两周后，公布导师参考答案
导师评选出当期最佳代码（将设置为精彩回复）

奖励：牛客大礼包一份（牛客定制水杯牛客定制笔牛客定制程序员徽章滑稽抱枕）

参与方式：直接将你的代码回复到本帖评论区

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本期题目：

实现C++的智能指针类，也就是自己实现一个和C++的shared_ptr同样功能的类。

参与方式：直接将你的代码回复到本帖评论区

参考答案：https://www.nowcoder.com/discuss/70627

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_林中羊_

National University of Singapore Java

#include <iostream> using namespace std; template<class T> class SmartPtr { public: SmartPtr(T *p){ try { use_count = new int(1); } catch (...) { delete ptr; ptr = nullptr; use_count = nullptr; cout << "Allocate memory for use_count fails." << endl; exit(1); } cout << "Constructor is called!" << endl; } ~SmartPtr(){ // 只在最后一个对象引用ptr时才释放内存 if (--(*use_count) == 0) { delete ptr; delete use_count; ptr = nullptr; use_count = nullptr; cout << "Destructor is called!" << endl; } } SmartPtr(const SmartPtr<T> &orig){ // 浅拷贝 ptr = orig.ptr; use_count = orig.use_count; ++(*use_count); cout << "Copy constructor is called!" << endl; } SmartPtr<T>& operator=(const SmartPtr<T> &rhs){ // 浅拷贝 ++(*rhs.use_count); // 将左操作数对象的使用计数减1，若该对象的使用计数减至0，则删除该对象 if (--(*use_count) == 0) { delete ptr; delete use_count; cout << "Left side object is deleted!" << endl; } ptr = rhs.ptr; use_count = rhs.use_count; cout << "Assignment operator overloaded is called!" << endl; return *this; } private: T *ptr; // 将use_count声明成指针是为了方便对其的递增或递减操作 int *use_count; }; int main() { // Test Constructor and Assignment Operator Overloaded SmartPtr<int> p1(new int(0)); p1 = p1; // Test Copy Constructor SmartPtr<int> p2(p1); // Test Assignment Operator Overloaded SmartPtr<int> p3(new int(1)); p3 = p1; cin.get(); return 0; }

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发布于 2018-03-13 12:28

鲸鱼姑娘

陕西科技大学 C++

//前置声明因为在使用sharedptr时可能会产生循环引用的缺陷，所以使用weakedptr进行辅助 template <class T> class WeakedPtr; template<class T> class MySharedPtr { public: //定义为友元类 friend class WeakedPtr<T>; MySharedPtr(T* ptr = NULL) :_ptr(ptr), _refCount(new int(1)) {} ~MySharedPtr() { if (--(*_refCount) == 0) { delete _ptr; delete _refCount; } } //s1(s2) MySharedPtr(const MySharedPtr<T>& sp) :_ptr(sp._ptr), _refCount(sp._refCount) { (*_refCount)++; } //sp1 = sp2 MySharedPtr<T>& operator=(MySharedPtr<T>& sp) { if (_ptr != sp._ptr) { if (--(*_refCount) == 0) { delete _ptr; delete _refCount; } _ptr = sp._ptr; _refCount = sp._refCount; (*_refCount)++; } return *this; } //为了像指针一样才进行*\->的重载 //->的重载 T* operator->() { return _ptr; } //*的重载 T& operator*() { return *_ptr; } //查看引用计数的多少 int UseCount() { return *_refCount; } private: T* _ptr; int* _refCount;//一块空间有一个指针 }; template <class T> class WeakedPtr { public: WeakedPtr() :_ptr(NULL) {} WeakedPtr(const MySharedPtr<T>& sp) :_ptr(sp._ptr) {} WeakedPtr<T>& operator=(const MySharedPtr<T>&sp) { _ptr = sp._ptr; return *this; } T& operator* () { return *_ptr; } T* operator->() { return _ptr; } private: T* _ptr; }; struct ListNode { int _data; WeakedPtr<ListNode> _next; WeakedPtr<ListNode> _prev; ~ListNode() { cout << "~ListNode" << endl; } }; void testMySharedPtr() { //SharePtr<int> sp1(new int(1)); //SharePtr<int> sp2(sp1); MySharedPtr<ListNode> cur(new ListNode); MySharedPtr<ListNode> next(new ListNode); cout << cur.UseCount() << endl; cout << next.UseCount() << endl; cur->_next = next; next->_prev = cur; cout << cur.UseCount() << endl; cout << next.UseCount() << endl; }

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发布于 2018-03-13 14:32

横贯八方

吉林大学 golang

#include <iostream> using namespace std; template<typename T> class SharedPtr { public: //禁止分配内存时抛出异常 explicit SharedPtr(T *p):ptr(p), use(new (nothrow) size_t(1)) { //分配内存失败 if (use == nullptr) { delete ptr; ptr = nullptr; cout << "分配内存失败"; exit(-1); } } explicit SharedPtr(const SharedPtr &rhs) :ptr(rhs.ptr), use(rhs.use) { ++*use; } SharedPtr& operator=(const SharedPtr &rhs) { ++*rhs.use; if (--*use == 0) { delete ptr; ptr = nullptr; delete use; use = nullptr; } ptr = rhs.ptr; use = rhs.use; return *this; } T* get() const { return ptr; } size_t use_count() const { return *use; } bool unique() const { return use_count() == 1; } //交换两个指针的指向 void swap(SharedPtr &q) { SharedPtr temp(q); q = *this; *this = temp; } T& operator*() const { return *ptr; } T* operator->() const { return & operator*(); } //虚析构函数 virtual ~SharedPtr() { if (--*use == 0) { delete ptr; ptr = nullptr; delete use; use = nullptr; } } private: T *ptr; size_t *use; }; int main() { //测试 SharedPtr<int> s1(new int(666)); { SharedPtr<int> s2(s1); SharedPtr<int> s3(s2); cout << "*s1 = " << *s1 << endl; cout << "s1 use_count " << s1.use_count() << endl; cout << "s1 is unique? " << s1.unique() << endl; } SharedPtr<int> s4(new int(888)); SharedPtr<int> s5(s4); cout << "Before swap:\n"; cout << "*s5 " << *s5 << endl; cout << "*s1 " << *s1 << endl; s5.swap(s1); cout << "After swap:\n"; cout << "*s5 " << *s5 << endl; cout << "*s1 " << *s1 << endl; cout << *(s1.get()) << endl; s1 = s4; SharedPtr<double> pd1(new double(2.3333)); SharedPtr<double> pd2(new double(0.33333)); cout << "pd1 is unique? " << pd1.unique() << endl; auto q = &pd1; cout << "Before swap:\n"; cout << "*pd1 " << *pd1 << endl; cout << "*pd2 " << *pd2 << endl; q->swap(pd2); cout << "After swap:\n"; cout << "*pd1 " << *pd1 << endl; cout << "*pd2 " << *pd2 << endl; cout << "test end!\n"; return 0; }

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发布于 2018-03-19 22:01