boost::shared_ptr

boost::shared_ptr是boost库中用来管理指针的模板，使用它需要#include <boost/shared_ptr.hpp>。本文介绍它的一些基本用法。

第一，boost::shared_ptr管理的指针所指向的对象必须在堆中，因为该模板会在对象离开作用域后调用delete方法，如果对象位于栈中，程序编译能通过，但在运行中会崩溃。另外改模板提供了swap方法，可以让两个模板指针相互交换所指向的对象。

#include <vector>
#include <set>
#include <iostream>
#include <algorithm>
#include <boost/shared_ptr.hpp>

//  The application will produce a series of
//  objects of type Foo which later must be
//  accessed both by occurrence (std::vector)
//  and by ordering relationship (std::set).

struct Foo
{
  Foo( int _x ) : x(_x) {}
  ~Foo() { std::cout << "Destructing a Foo with x=" << x << "
"; }
  int x;
  /* ... */
};

typedef boost::shared_ptr<Foo> FooPtr;

typedef struct FooPtrOps
{
  bool operator()( const FooPtr & a, const FooPtr & b )
  { return a->x > b->x; }
  void operator()( const FooPtr & a )
  { std::cout << a->x << "
"; }
} foo_ptr_ops;

foo_ptr_ops ins_foo_ptr_ops1 = foo_ptr_ops();
FooPtrOps *ins_foo_ptr_ops2 = new FooPtrOps();
FooPtrOps *ins_foo_ptr_ops3 = new foo_ptr_ops;


int main()
{
  {
    std::vector<FooPtr>         foo_vector;
    std::set<FooPtr,FooPtrOps>  foo_set; // NOT multiset!

    FooPtr foo_ptr( new Foo( 2 ) );
    foo_vector.push_back( foo_ptr );
    foo_set.insert( foo_ptr );

    foo_ptr.reset( new Foo( 1 ) );
    foo_vector.push_back( foo_ptr );
    foo_set.insert( foo_ptr );

    foo_ptr.reset( new Foo( 3 ) );
    foo_vector.push_back( foo_ptr );
    foo_set.insert( foo_ptr );

    foo_ptr.reset ( new Foo( 2 ) );
    foo_vector.push_back( foo_ptr );
    foo_set.insert( foo_ptr );

    std::cout << "foo_vector:
";
    std::for_each( foo_vector.begin(), foo_vector.end(), ins_foo_ptr_ops1 );

    std::cout << "
foo_set:
";
    std::for_each( foo_set.begin(), foo_set.end(), *ins_foo_ptr_ops3 );

    FooPtr foo_ptr1( new Foo( 10 ) );
    FooPtr foo_ptr2( new Foo( 20 ) );
    std::cout << "foo_ptr1: " << foo_ptr1->x << '
';
    std::cout << "foo_ptr2: " << foo_ptr2->x << '
';

    foo_ptr1.swap(foo_ptr2);
    std::cout << "After swap:
";
    std::cout << "foo_ptr1: " << foo_ptr1->x << '
';
    std::cout << "foo_ptr2: " << foo_ptr2->x << '
';

    foo_ptr2.swap(foo_ptr1);
    std::cout << "Swap again:
";
    std::cout << "foo_ptr1: " << foo_ptr1->x << '
';
    std::cout << "foo_ptr2: " << foo_ptr2->x << '
';

    int a = 4;
    int b[4] = {6, 7, 0, 5};
    int *c = new int();
    int *d = new int[3];

    /*
     * Because variable a and b are on stack, while boost::shared_ptr will call delete method,
     * the following two rows of code will cause error.
     */
//    boost::shared_ptr<int> bsa(&a);  // Error: Signal: SIGABRT (Aborted)
//  boost::shared_ptr<int> bsb(b);  // Error: Signal: SIGABRT (Aborted)
    boost::shared_ptr<int> bsc(c);
    boost::shared_ptr<int> bsd(d);
    std::cout << "bsc: " << *bsc << " bsd: " << *bsd << std::endl;

    std::cout << "The variable field finished." << "
";
  }

  int *c = new int();
  int *d = new int[3];
  boost::shared_ptr<int> bsc(c);
  boost::shared_ptr<int> bsd(d);
  std::cout << "bsc: " << *bsc << " bsd: " << *bsd << std::endl;

  std::cout << "
Program done.
";
}

程序的运行结果：

foo_vector:
2
1
3
2

foo_set:
3
2
1
foo_ptr1: 10
foo_ptr2: 20
After swap:
foo_ptr1: 20
foo_ptr2: 10
Swap again:
foo_ptr1: 10
foo_ptr2: 20
bsc: 0 bsd: 0
The variable field finished.
Destructing a Foo with x=20
Destructing a Foo with x=10
Destructing a Foo with x=2
Destructing a Foo with x=1
Destructing a Foo with x=3
Destructing a Foo with x=2
bsc: 0 bsd: 7933344

Program done.

 

第二，boost::shared_ptr支持隐藏类的定义。如下面的代码中，class implementation的定义可以放置于另一个源文件中，在利用boost::shared_ptr管理implementation类型的指针变量时，可以先声明一下类implementation，然后就能定义boost::shared_ptr< implementation >类型的指针变量。

#include <boost/shared_ptr.hpp>
#include <iostream>
#include <algorithm>


void print_val(int v)
{
    std::cout << v << " ";
}

class example
{
 public:
  example();
  void do_something();
  int val[3];
  class implementation;
  boost::shared_ptr< implementation > _imp;  // hide implementation details
};

class example::implementation
{
 public:
  ~implementation() { std::cout << "destroying implementation
"; }
};

example::example() : _imp( new implementation ) {}

void example::do_something()
{
  std::cout << "use_count() is " << _imp.use_count() << "   ";
  std::for_each(val, val + 3, print_val);
  std::cout << "
";
}

int main()
{
  example a;
  a.val[0] = 4;
  a.val[1] = 5;
  a.val[2] = 6;
  a.do_something();
  example b(a);
  b.do_something();
  example c;
  c = a;
  a.do_something();
  b.do_something();
  c.do_something();
  return 0;
}

程序的运行结果：

use_count() is 1   4 5 6 
use_count() is 2   4 5 6 
destroying implementation
use_count() is 3   4 5 6 
use_count() is 3   4 5 6 
use_count() is 3   4 5 6 
destroying implementation

第三，使用boost::shared_ptr提供的reset()方法，可以使boost::shared_ptr管理的指针所指向的对象的引用计数减一。当所指对象的引用计数减至0时，所指对象的析构函数将被调用，所指对象被销毁。

#include <iostream>
#include <string>
#include <boost/shared_ptr.hpp>

using namespace std;


class Book
{
 private:
  string name_;

 public:
  Book(string name) : name_(name)
  {
    cout << "Creating book " << name_ << " ..." << endl;
  }

  ~Book()
  {
    cout << "Destroying book " << name_ << " ..." << endl;
  }
};

int main()
{
  cout << "=====Main Begin=====" << endl;
  {
    boost::shared_ptr<Book> myBook1(new Book("「1984」"));
    cout << "myBook1: " << myBook1.use_count() << endl;
    boost::shared_ptr<Book> myBook2(myBook1);
    cout << "myBook1: " << myBook1.use_count() << endl;
    boost::shared_ptr<Book> myBook3;
    myBook3 = myBook1;

    cout << "
****************************
";
    cout << "myBook1: " << myBook1.use_count() << endl;
    cout << "myBook2: " << myBook2.use_count() << endl;
    cout << "myBook3: " << myBook3.use_count() << endl;

    cout << "
****************************
";
    myBook1.reset();
    cout << "myBook1: " << myBook1.use_count() << endl;
    cout << "myBook2: " << myBook2.use_count() << endl;
    cout << "myBook3: " << myBook3.use_count() << endl;

    cout << "
****************************
";
    myBook3.reset();
    cout << "myBook1: " << myBook1.use_count() << endl;
    cout << "myBook2: " << myBook2.use_count() << endl;
    cout << "myBook3: " << myBook3.use_count() << endl;

    cout << "
****************************
";
    myBook2.reset();
    cout << "myBook1: " << myBook1.use_count() << endl;
    cout << "myBook2: " << myBook2.use_count() << endl;
    cout << "myBook3: " << myBook3.use_count() << endl;

    cout << "After reset ..." << endl;
  }
  cout << "===== Main End =====" << endl;

  return 0;
}

程序的运行结果：

=====Main Begin=====
Creating book 「1984」 ...
myBook1: 1
myBook1: 2

****************************
myBook1: 3
myBook2: 3
myBook3: 3

****************************
myBook1: 0
myBook2: 2
myBook3: 2

****************************
myBook1: 0
myBook2: 1
myBook3: 0

****************************
Destroying book 「1984」 ...
myBook1: 0
myBook2: 0
myBook3: 0
After reset ...
===== Main End =====