1.意图
将对象组合成树形结构以表示“部分-整体”的层次结构。Composite使得用户对单个对象和组合对象的使用具有一致性。
2.动机
可以组合多个简单组件以形成一些较大的组件,这些组件又可以组合成更大的组件。Composite模式描述了如何使用递归组合,使得用户不必对这些类进行区别。
3.适用性
- 表示对象的部分-整体层次结构。
- 希望用户忽略组合对象与单个对象的不同,用户将统一地使用组合结构中的所有对象。
4.结构
5.代码实例
#include <memory>
#include <vector> class Graphic
{
public:
Graphic(std::shared_ptr<Graphic> pParent);
virtual void Add(std::shared_ptr<Graphic>& pGraphic);
virtual void Remove(std::shared_ptr<Graphic>& pGraphic);
virtual std::shared_ptr<Graphic> GetChild(int iIndex);
virtual std::shared_ptr<Graphic>& GetParent();
virtual void Opereate(); protected:
std::shared_ptr<Graphic> m_pParent; std::vector<std::shared_ptr<Graphic>> m_vecChildrenGraphics; }; class Circle : public Graphic
{
public:
Circle(std::shared_ptr<Graphic> pParent);
void Opereate();
}; class Retangle : public Graphic
{
public:
Retangle(std::shared_ptr<Graphic> pParent);
void Opereate();
}; class Line : public Graphic
{
public:
Line(std::shared_ptr<Graphic> pParent);
void Opereate();
}; class Picture : public Graphic
{
public:
Picture(std::shared_ptr<Graphic> pParent);
virtual void Add(std::shared_ptr<Graphic>& pGraphic);
virtual void Remove(std::shared_ptr<Graphic>& pGraphic);
virtual std::shared_ptr<Graphic> GetChild(int iIndex);
void Opereate();
};
#include "Graphic.h"
#include <iostream> Graphic::Graphic(std::shared_ptr<Graphic> pParent)
: m_pParent(pParent)
{
} void Graphic::Add(std::shared_ptr<Graphic>& pGraphic)
{
std::cout<< "Leaf Cannot Add Childrren" << std::endl;
} void Graphic::Remove(std::shared_ptr<Graphic>& pGraphic)
{
std::cout<< "Leaf Cannot Remove Childrren" << std::endl;
} std::shared_ptr<Graphic> Graphic::GetChild(int iIndex)
{
std::cout<< "Leaf Cannot Get Child" << std::endl;
return nullptr;
} std::shared_ptr<Graphic>& Graphic::GetParent()
{
return m_pParent;
} void Graphic::Opereate()
{
std::cout<< "Default Operate Executed" <<std::endl;
} Circle::Circle(std::shared_ptr<Graphic> pParent)
:Graphic(pParent)
{
} void Circle::Opereate()
{
std::cout << "Circle Operate Exeeuted" << std::endl;
} Retangle::Retangle(std::shared_ptr<Graphic> pParent)
:Graphic(pParent)
{
} void Retangle::Opereate()
{
std::cout << "Retangle Operate Exeeuted" << std::endl;
} Line::Line(std::shared_ptr<Graphic> pParent)
:Graphic(pParent)
{
} void Line::Opereate()
{
std::cout << "Line Operate Exeeuted" << std::endl;
} Picture::Picture(std::shared_ptr<Graphic> pParent)
: Graphic(pParent)
{
} void Picture::Add(std::shared_ptr<Graphic>& pGraphic)
{
m_vecChildrenGraphics.push_back(pGraphic); std::cout<< "ChildrenGraphics Add Success" <<std::endl;
} void Picture::Remove(std::shared_ptr<Graphic>& pGraphic)
{
for(auto iter=m_vecChildrenGraphics.begin();
iter!=m_vecChildrenGraphics.end();++iter)
{
if((*iter) == pGraphic)
{
m_vecChildrenGraphics.erase(iter);
std::cout<< "ChildrenGraphics remove Success"<<std::endl;
break;
}
}
} std::shared_ptr<Graphic> Picture::GetChild(int iIndex)
{
auto count = m_vecChildrenGraphics.size();
if(iIndex <= count -)
{
std::cout<< "Get Child Success" <<std::endl;
return m_vecChildrenGraphics[iIndex];
} return nullptr;
} void Picture::Opereate()
{
for(auto iter=m_vecChildrenGraphics.begin();
iter!=m_vecChildrenGraphics.end();++iter)
{
(*iter)->Opereate();
}
}
#include "Graphic.h"
#include <iostream> int main()
{
std::shared_ptr<Graphic> pPicture(new Picture(nullptr)); std::shared_ptr<Graphic> pCircle(new Circle(pPicture)); std::shared_ptr<Graphic> pRetangle(new Retangle(pPicture)); std::shared_ptr<Graphic> pLine(new Line(pPicture)); pPicture->Add(pCircle);
pPicture->Add(pRetangle);
pPicture->Add(pLine); pPicture->Opereate(); if(nullptr == pPicture->GetParent())
{
std::cout<< "pPicture is root" <<std::endl;
} auto pNode = pPicture->GetChild(); auto pParent = pNode->GetParent(); if(nullptr != pParent)
{
std::cout<<"Node has Parent"<<std::endl;
} std::cout << "Parent Operate:"<<std::endl; pParent->Opereate(); pNode->Opereate(); pNode->Add(pNode); pNode->Remove(pNode); pNode->GetChild(); pNode = pPicture->GetChild(); if(nullptr != pNode->GetParent())
{
std::cout<<"Node has Parent"<<std::endl;
} pNode->Opereate(); pNode->Add(pNode); pNode->Remove(pNode); pNode->GetChild(); pNode = pPicture->GetChild(); if(nullptr != pNode->GetParent())
{
std::cout<<"Node has Parent"<<std::endl;
} pNode->Opereate(); pNode->Add(pNode); pNode->Remove(pNode); pNode->GetChild(); pPicture->Remove(pCircle);
pPicture->Remove(pRetangle);
pPicture->Remove(pLine); while(); }
6.测试结果
7.效果
- 定义了包含基本对象和组合对象的类层次结构 基本对象可以被组合成更复杂的组合对象,而这个组合对象又可以被组合。
- 简化客户代码 客户可以一致地使用组合结构和单个对象。
- 使得容易增加新类型的组件 新定义的Composite或Leaf子类自动地与已有的结构和客户代码一起工作,客户程序不需因新的Component类而改变。
- 使设计变的更加一般化。