第13章 SmartPointer

13.1 设计目标

  1. 记录当前对象被引用了多少次 reference count
  2. UCObject用来记录次数,use-counted object
  3. UCPointer用来指向UCObject
    1. 智能指针是通过一个类定义的
    2. 使用模板实现
    3. 重载操作符->和*****

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13.2 设计类和接口

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  1. UCObject:实现reference count
  2. UCPointer:是一个类模板,支持指向任意一个类型的UCObject
  3. String Rep:字符串表示的细节,是可共享的
  4. String:再封装一层,提供给用户

13.3 实现细节

  1. UCObject

    #include <assert.h>
    class UCObject {
    private:
    int m_refCount;
    public:
    UCObject() : m_refCount(0) { }
    UCObject(const UCObject&) : m_refCount(0) { }

    // 析构函数需要是virtual的,因为使用的时候,我们通常会使用父类指针指向子类,但是析构的时候要正确调用子类的析构函数
    virtual ~UCObject() {
    assert(m_refCount == 0);
    };

    // 接口不需要virtual, 因为所有子类的这些操作都是一样的
    void incr() {
    m_refCount++;
    }
    void decr() {
    m_refCount -= 1;
    if (m_refCount == 0)
    delete this;
    }
    int references() {
    return m_refCount;
    }
    };
  2. UCPointer

    template <class T>
    class UCPointer {
    private:
    T* m_pObj;
    // 下列两个函数表明: T继承自UCObject, 否则调用incr(),decr()时编译器会报错
    // 因为UCPointer要像指针一样使用, 因此将这两个函数放入private中
    void increment() {
    if (m_pObj) m_pObj->incr();
    }
    void decrement() {
    if (m_pObj) m_pObj->decr();
    }
    public:
    UCPointer(T* r = 0): m_pObj(r) {
    increment();
    }
    ~UCPointer() {
    decrement();
    };
    UCPointer(const UCPointer<T> & p){
    m_pObj = p.m_pObj;
    increment();
    }
    UCPointer& operator=(const UCPointer<T> &){
    if (m_pObj != p.m_Obj){
    decrement();
    m_pObj = p.m_pObj;
    increment();
    }
    return *this;
    }
    T* operator->() const{
    return m_pObj;
    }
    T& operator*() const {
    return *m_pObj;
    };
    };

  3. 使用实例:假设Shape继承自UCObject

    Ellipse elly(200F, 300F);
    UCPointer<Shape> p(&elly);
    p->render(); // calls Ellipse::render() on elly!
  4. String

    1. StringReq继承自UCObject
    2. String提供用户使用的
    class String {
    public:
    String(const char *);
    ~String();
    String(const String&);
    String& operator=(const String&);
    int operator==(const String&) const;
    String operator+(const String&) const;
    int length() const;
    operator const char*() const;
    private:
    UCPointer<StringRep> m_rep;
    };
    String::String(const char *s) : m_rep(0) {
    m_rep = new StringRep(s);
    }

    String::~String() {}

    // Again, note constructor for rep in list.
    String::String(const String& s) : m_rep(s.m_rep) {}

    String& String::operator=(const String& s) {
    m_rep = s.m_rep; // let smart pointer do work!
    return *this;
    }

    int String::operator==(const String& s) const {
    // overloaded -> forwards to StringRep
    return m_rep->equal(*s.m_rep); // smart ptr *
    }

    int String::length() const {
    return m_rep->length();
    }
  5. StringRep

    class StringRep : public UCObject {
    public:
    StringRep(const char *);
    ~StringRep();
    StringRep(const StringRep&);
    int length() const{ return strlen(m_pChars); }
    int equal(const StringRep&) const;
    private:
    char *m_pChars;
    // reference semantics -- no assignment op!
    void operator=(const StringRep&) { }
    };
    StringRep::StringRep(const char *s) {
    if (s) {
    int len = strlen(s) + 1;
    m_pChars = new char[len];
    strcpy(m_pChars , s);
    } else {
    m_pChars = new char[1];
    *m_pChars = '\0';
    }
    }
    StringRep::~StringRep() {
    delete [] m_pChars ;
    }
    StringRep::StringRep(const StringRep& sr) {
    int len = sr.length();
    m_pChars = new char[len + 1];
    strcpy(m_pChars , sr.m_pChars );
    }

    int StringRep::equal(const StringRep& sp) const {
    return (strcmp(m_pChars, sp.m_pChars) == 0);
    }

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13.4 细节

  1. UCPointer维护了reference counts
  2. UCObject隐藏了count的细节,使得String非常干净
  3. StringReq只处理字符串的存储和操作
  4. UCObjectUCPointer是可重用的
  5. UCPointer的对象有环时,对象不会被delete