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 程式師世界 >> 編程語言 >> C語言 >> C >> 關於C >> 消息發送VS設計模式 C++沉思錄的一練習題的另解

消息發送VS設計模式 C++沉思錄的一練習題的另解

編輯:關於C
緣起,看到一遍文章,題材取自於《C++沉思錄》,綜合利用好幾種設計模式,並且結合所謂的面向對象的技巧,然後洋洋自得,並且在最後,還反問:“有更好的解決方案嗎?”。本座暗歎,又一個設計模式的毒害者。以下,就提出另一種解決方案。
 
       首先,先聲明一點,現實中,一張圖片,可以給予添加一層又一層片框,也可以和其他的圖片組合在一塊,或橫,或豎,……,但是,圖片,始終只有一張,對它處理之後,它就一直是那個樣子了,不可能同時看到它的兩個樣子,或加邊框,或和其他照片組合在一塊。如果,拿這張圖片去進行復制,那又自是另當別論,但那已經是另外一第圖片了。當然,對以下例子稍加修改,就能支持修飾的圖片的復制操作。
 
       本座最近在寫一套消息框架,如果這個例子能用上那套框架,寫起來就會很簡單。但是,即使沒有消息框架的支持,利用消息發送來解決這個問題,也是相當小兒科的事情。為了突出重點,忽略了各種異常處理,沒有優化,也不管什麼編程風格,純粹直奔主題。解決這個例子的最重要一點,就在於打印圖片時,要一行一行地從頂到底順次打印下來。 www.2cto.com
 
 
typedef int (*ProcPictureImp)(void* pThis, int nMessage, void* param1, void* param2);
 
enum { PM_WIDTH, PM_HEIGHT, PM_PRINT_ROW};
 
struct PictureImp
{
    void* pThis;
    ProcPictureImp proc;
 
    int GetWidth()
    {
        return (*proc)(pThis, PM_WIDTH, NULL, NULL);
    }
 
    int GetHeight()
    {
        return (*proc)(pThis, PM_HEIGHT, NULL, NULL);
    }
 
    int PrintRow(int nRow, ostream& out)
    {
        return (*proc)(pThis, PM_PRINT_ROW, (void*)nRow, (void*)&out);
    }
};
 
 
class CPicture
{
public:
    CPicture(const char* pDatas[], int nCount)
    {
        m_pDatas = pDatas;
        m_nCount = nCount;
        m_nWidth = 0;
        for (int i=0; i<m_nCount; i++)
        {
            int nLen = strlen(m_pDatas[i]);
            if (m_nWidth < nLen)
                m_nWidth = nLen;
        }
        m_Imp.pThis = this;
        m_Imp.proc = HandleMsg;
    }
    void Print(ostream& out);
 
public:
    PictureImp m_Imp;
 
private:
    const char** m_pDatas;
    int m_nCount;
    int m_nWidth;
 
    static int HandleMsg(void* pThis, int nMessage, void* param1, void* param2);
};
 
int CPicture::HandleMsg(void* pThis, int nMessage, void* param1, void* param2)
{
    CPicture* pSelf = (CPicture*)pThis;
    switch (nMessage)
    {
    case PM_WIDTH:
        return pSelf->m_nWidth;
 
    case  PM_HEIGHT:
        return pSelf->m_nCount;
        break;
 
    case PM_PRINT_ROW:
        int nRow = (int)param1;
        ostream& out = *(ostream*)param2;
        if (nRow >= pSelf->m_nCount)
            break;
        int i=0;
        for (; pSelf->m_pDatas[nRow][i] != 0; i++)
            out << pSelf->m_pDatas[nRow][i];
        for (; i<pSelf->m_nWidth; i++)
            out << ' ';               
    }
    return 0;
}
 
void CPicture::Print(ostream& out)
{
    int nHeight = m_Imp.GetHeight();
    for (int nRow = 0; nRow<nHeight; nRow++)
    {
        m_Imp.PrintRow(nRow, out);
        out << endl;
    }
}
 
class CFrameDecorater
{
public:
    CFrameDecorater(PictureImp& imp)
    {
        m_PrevImp = imp;
        imp.pThis = this;
        imp.proc = HandleMsg;
    }
 
private:
    PictureImp m_PrevImp;
    static int HandleMsg(void* pThis, int nMessage, void* param1, void* param2);
};
 
int CFrameDecorater::HandleMsg(void* pThis, int nMessage, void* param1, void* param2)
{
    CFrameDecorater* pSelf = (CFrameDecorater*)pThis;
    PictureImp& prevImp = pSelf->m_PrevImp;
    switch (nMessage)
    {
    case PM_WIDTH:
        return prevImp.GetWidth()+2;
 
    case  PM_HEIGHT:
        return prevImp.GetHeight()+2;
 
    case PM_PRINT_ROW:
        int nRow = (int)param1;
        ostream& out = *(ostream*)param2;
        bool bMyRow = nRow == 0 || nRow>prevImp.GetHeight();
        if (nRow >= prevImp.GetWidth()+2)
            break;
        if (nRow == 0 || nRow>prevImp.GetHeight())
        {
            out << '+';
            for (int i=0; i<prevImp.GetWidth(); i++)
                out << '-';
            out << '+';
        }
        else
        {
            out << '|';
            prevImp.PrintRow(nRow-1, out);
            out << '|';
        }
    }
    return 0;
}
 
 
class CHorseDecorater
{
public:
    CHorseDecorater(PictureImp& impLeft, PictureImp& impRight)
    {
        m_Left = impLeft;
        m_Right = impRight;
        impLeft.pThis = this;
        impLeft.proc = HandleMsg;
        impRight.pThis = this;
        impRight.proc = HandleMsg;
    }
 
private:
    PictureImp m_Left;
    PictureImp m_Right;
 
    static int HandleMsg(void* pThis, int nMessage, void* param1, void* param2);
    static void PrintRow(PictureImp& pict, int nRow, ostream& out)
    {
        if (nRow < pict.GetHeight())
            pict.PrintRow(nRow, out);
        else
        {
            for (int i=0; i<pict.GetWidth(); i++)
                out << ' ';
        }
    }
};
 
int CHorseDecorater::HandleMsg(void* pThis, int nMessage, void* param1, void* param2)
{
    CHorseDecorater* pSelf = (CHorseDecorater*)pThis;
    PictureImp& pictLeft = pSelf->m_Left;
    PictureImp& pictRight = pSelf->m_Right;
    switch (nMessage)
    {
    case PM_WIDTH:
        return pictLeft.GetWidth()+pictRight.GetWidth();;
 
    case  PM_HEIGHT:
        return max(pictLeft.GetHeight(), pictRight.GetHeight());
 
    case PM_PRINT_ROW:
        int nRow = (int)param1;
        ostream& out = *(ostream*)param2;
        PrintRow(pictLeft, nRow, out);
        PrintRow(pictRight, nRow, out);
    }
    return 0;
}
 
int main()
{
    const char* init1[] = {"Paris", "in the", "Spring", "HaHa"};
    CPicture pict1(init1, 3);
    pict1.Print(cout);
    CFrameDecorater framer1(pict1.m_Imp);
    //pict1.Print(cout);
    CFrameDecorater framer2(pict1.m_Imp);
    pict1.Print(cout);
    CPicture pict2(init1, 4);
    CHorseDecorater hors(pict1.m_Imp, pict2.m_Imp);
    pict1.Print(cout);
    CFrameDecorater framerHorse(pict1.m_Imp);
    pict1.Print(cout);
    return 0;
}
 
 
       嗯,明眼人一眼就看出來了,切,這不過是模仿WINDOWS的窗口消息處理函數的伎倆而已。沒有繼承、沒有虛函數,何其美妙哉!
 
       又,注意到main()中的代碼,雖然pict1被裝飾了好幾次,但其圖片打印,始終都是pict1.Print(cout)。所謂不管八風亂起,我自巋然不動
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