html與xhtml中javascript區(qū)別

    方案一
    代碼如下:
    class qmmanager
    {
    public:
    static qmmanager &instance()
    {
    static qmmanager instance_;
    return instance_;
    }
    }
    這是最簡(jiǎn)單地版本，在單線程下(或者是c++0x下)是沒(méi)任何問(wèn)題地，但在多線程下就不行了，因?yàn)閟tatic qmmanager instance_;這句話不是線程安全地.
    在局部作用域下地靜態(tài)變量在編譯時(shí)，編譯器會(huì)創(chuàng)建一個(gè)附加變量標(biāo)識(shí)靜態(tài)變量是否被初始化，會(huì)被編譯器變成像下面這樣(偽代碼)：
    代碼如下:
    static qmmanager &instance()
    {
    static bool constructed = false;
    static uninitialized qmmanager instance_;
    if (!constructed) {
    constructed = true;
    new(&s) qmmanager; //construct it
    }
    return instance_;
    }
    這里有競(jìng)爭(zhēng)條件，兩個(gè)線程同時(shí)調(diào)用instance()時(shí)，一個(gè)線程運(yùn)行到if語(yǔ)句進(jìn)入后還沒(méi)設(shè)constructed值，此時(shí)切換到另一線程，constructed值還是false，同樣進(jìn)入到if語(yǔ)句里初始化變量，兩個(gè)線程都執(zhí)行了這個(gè)單例類地初始化，就不再是單例了.
    方案二
    一個(gè)解決方法是加鎖：
    代碼如下:
    static qmmanager &instance()
    {
    lock(); //鎖自己實(shí)現(xiàn)
    static qmmanager instance_;
    unlock();
    return instance_;
    }
    但這樣每次調(diào)用instance()都要加鎖解鎖，代價(jià)略大.
    方案三
    那再改變一下，把內(nèi)部靜態(tài)實(shí)例變成類地靜態(tài)成員，在外部初始化，也就是在include了文件，main函數(shù)執(zhí)行前就初始化這個(gè)實(shí)例，就不會(huì)有線程重入問(wèn)題了：
    代碼如下:
    class qmmanager
    {
    protected:
    static qmmanager instance_;
    qmmanager();
    ~qmmanager(){};
    public:
    static qmmanager *instance()
    {
    return &instance_;
    }
    void do_something();
    };
    qmmanager qmmanager::instance_; //外部初始化
    這被稱為餓漢模式，程序一加載就初始化，不管有沒(méi)有調(diào)用到.
    看似沒(méi)問(wèn)題，但還是有坑，在一個(gè)2b情況下會(huì)有問(wèn)題：在這個(gè)單例類地構(gòu)造函數(shù)里調(diào)用另一個(gè)單例類地方法可能會(huì)有問(wèn)題.
    看例子：
    代碼如下:
    //.h
    class qmmanager
    {
    protected:
    static qmmanager instance_;
    qmmanager();
    ~qmmanager(){};
    public:
    static qmmanager *instance()
    {
    return &instance_;
    }
    };
    class qmsqlite
    {
    protected:
    static qmsqlite instance_;
    qmsqlite();
    ~qmsqlite(){};
    public:
    static qmsqlite *instance()
    {
    return &instance_;
    }
    void do_something();
    };
    qmmanager qmmanager::instance_;
    qmsqlite qmsqlite::instance_;
    //.cpp
    qmmanager::qmmanager()
    {
    printf(qmmanager constructorn);
    qmsqlite::instance()->do_something();
    }
    qmsqlite::qmsqlite()
    {
    printf(qmsqlite constructorn);
    }
    void qmsqlite::do_something()
    {
    printf(qmsqlite do_somethingn);
    }
    這里qmmanager地構(gòu)造函數(shù)調(diào)用了qmsqlite地instance函數(shù)，但此時(shí)qmsqlite::instance_可能還沒(méi)有初始化.
    這里地執(zhí)行流程：程序開(kāi)始后，在執(zhí)行main前，執(zhí)行到qmmanager qmmanager::instance_;這句代碼，初始化qmmanager里地instance_靜態(tài)變量，調(diào)用到qmmanager地構(gòu)造函數(shù)，在構(gòu)造函數(shù)里調(diào)用qmsqlite::instance()，取qmsqlite里地instance_靜態(tài)變量，但此時(shí)qmsqlite::instance_還沒(méi)初始化，問(wèn)題就出現(xiàn)了.
    那這里會(huì)crash嘛，測(cè)試結(jié)果是不會(huì)，這應(yīng)該跟編譯器有關(guān)，靜態(tài)數(shù)據(jù)區(qū)空間應(yīng)該是先被分配了，在調(diào)用qmmanager構(gòu)造函數(shù)前，qmsqlite成員函數(shù)在內(nèi)存里已經(jīng)存在了，只是還未調(diào)到它地構(gòu)造函數(shù)，所以輸出是這樣：
    qmmanager constructor
    qmsqlite do_something
    qmsqlite constructor
    方案四
    那這個(gè)問(wèn)題怎么解決呢，單例對(duì)象作為靜態(tài)局部變量有線程安全問(wèn)題，作為類靜態(tài)全局變量在一開(kāi)始初始化，有以上2b問(wèn)題，那結(jié)合下上述兩種方式，可以解決這兩個(gè)問(wèn)題.boost地實(shí)現(xiàn)方式是：?jiǎn)卫龑?duì)象作為靜態(tài)局部變量，但增加一個(gè)輔助類讓單例對(duì)象可以在一開(kāi)始就初始化.如下：
    代碼如下:
    //.h
    class qmmanager
    {
    protected:
    struct object_creator
    {
    object_creator()
    {
    qmmanager::instance();
    }
    inline void do_nothing() const {}
    };
    static object_creator create_object_;
    qmmanager();
    ~qmmanager(){};
    public:
    static qmmanager *instance()
    {
    static qmmanager instance;
    return &instance;
    }
    };
    qmmanager::object_creator qmmanager::create_object_;
    class qmsqlite
    {
    protected:
    qmsqlite();
    ~qmsqlite(){};
    struct object_creator
    {
    object_creator()
    {
    qmsqlite::instance();
    }
    inline void do_nothing() const {}
    };
    static object_creator create_object_;
    public:
    static qmsqlite *instance()
    {
    static qmsqlite instance;
    return &instance;
    }
    void do_something();
    };
    qmmanager::object_creator qmmanager::create_object_;
    qmsqlite::object_creator qmsqlite::create_object_;
    結(jié)合方案3地.cpp，這下可以看到正確地輸出和調(diào)用了：
    qmmanager constructor
    qmsqlite constructor
    qmsqlite do_something
    來(lái)看看這里地執(zhí)行流程：
    初始化qmmanager類全局靜態(tài)變量create_object_
    ->調(diào)用object_creator地構(gòu)造函數(shù)
    ->調(diào)用qmmanager::instance()方法初始化單例
    ->執(zhí)行qmmanager地構(gòu)造函數(shù)
    ->調(diào)用qmsqlite::instance()
    ->初始化局部靜態(tài)變量qmsqlite instance
    ->執(zhí)行qmsqlite地構(gòu)造函數(shù)，然后返回這個(gè)單例.
    跟方案三地區(qū)別在于qmmanager調(diào)用qmsqlite單例時(shí)，方案3是取到全局靜態(tài)變量，此時(shí)這個(gè)變量未初始化，而方案四地單例是靜態(tài)局部變量，此時(shí)調(diào)用會(huì)初始化.
    跟最初方案一地區(qū)別是在main函數(shù)前就初始化了單例，不會(huì)有線程安全問(wèn)題.
    最終boost
    上面為了說(shuō)明清楚點(diǎn)去除了模版，實(shí)際使用是用模版，不用寫那么多重復(fù)代碼，這是boost庫(kù)地模板實(shí)現(xiàn)：
    代碼如下:
    template <typename t>
    struct singleton
    {
    struct object_creator
    {
    object_creator(){ singleton<t>::instance(); }
    inline void do_nothing()const {}
    };
    static object_creator create_object;
    public:
    typedef t object_type;
    static object_type& instance()
    {
    static object_type obj;
    //據(jù)說(shuō)這個(gè)do_nothing是確保create_object構(gòu)造函數(shù)被調(diào)用
    //這跟模板地編譯有關(guān)
    create_object.do_nothing();
    return obj;
    }
    };
    template <typename t> typename singleton<t>::object_creator singleton<t>::create_object;
    class qmmanager
    {
    protected:
    qmmanager();
    ~qmmanager(){};
    friend class singleton<qmmanager>;
    public:
    void do_something(){};
    };
    int main()
    {
    singleton<qmmanager>::instance()->do_something();
    return 0;
    }
    其實(shí)boost庫(kù)這樣地實(shí)現(xiàn)像打了幾個(gè)補(bǔ)丁，用了一些奇技淫巧，雖然確實(shí)繞過(guò)了坑實(shí)現(xiàn)了需求，但感覺(jué)挺不好地.
    showmessage(path);
    end;
    ：