Microsoft KB Archive/250614: Difference between revisions

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<pre class="codesample">static CString strData[10][3] =
<pre class="codesample">static CString strData[10][3] =
{
{
     { _T(&quot;Washington&quot;), _T(&quot;George&quot;), _T(&quot;1789-1797&quot;) },
     { _T("Washington"), _T("George"), _T("1789-1797") },
     { _T(&quot;Adams&quot;), _T(&quot;John&quot;), _T(&quot;1797-1801&quot;) },
     { _T("Adams"), _T("John"), _T("1797-1801") },
     { _T(&quot;Jefferson&quot;), _T(&quot;Thomas&quot;), _T(&quot;1801-1809&quot;) },
     { _T("Jefferson"), _T("Thomas"), _T("1801-1809") },
     { _T(&quot;Madison&quot;), _T(&quot;James&quot;), _T(&quot;1809-1817&quot;) },
     { _T("Madison"), _T("James"), _T("1809-1817") },
     { _T(&quot;Monroe&quot;), _T(&quot;James&quot;), _T(&quot;1817-1825&quot;) },
     { _T("Monroe"), _T("James"), _T("1817-1825") },
     { _T(&quot;Adams&quot;), _T(&quot;John Quincy&quot;), _T(&quot;1825-1829&quot;) },
     { _T("Adams"), _T("John Quincy"), _T("1825-1829") },
     { _T(&quot;Jackson&quot;), _T(&quot;Andrew&quot;), _T(&quot;1829-1837&quot;) },
     { _T("Jackson"), _T("Andrew"), _T("1829-1837") },
     { _T(&quot;Van Buren&quot;), _T(&quot;Martin&quot;), _T(&quot;1837-1841&quot;) },
     { _T("Van Buren"), _T("Martin"), _T("1837-1841") },
     { _T(&quot;Harrison&quot;), _T(&quot;William Henry&quot;), _T(&quot;1841&quot;) },
     { _T("Harrison"), _T("William Henry"), _T("1841") },
     { _T(&quot;Tyler&quot;), _T(&quot;John&quot;), _T(&quot;1841-1845&quot;) }
     { _T("Tyler"), _T("John"), _T("1841-1845") }
};
};
                 </pre>
                 </pre>
Line 95: Line 95:
<br />
<br />


<pre class="codesample">    m_ctlListView.InsertColumn(0, _T(&quot;Last Name&quot;), LVCFMT_LEFT, 100);
<pre class="codesample">    m_ctlListView.InsertColumn(0, _T("Last Name"), LVCFMT_LEFT, 100);
     m_ctlListView.InsertColumn(1, _T(&quot;First Name&quot;), LVCFMT_LEFT, 100);
     m_ctlListView.InsertColumn(1, _T("First Name"), LVCFMT_LEFT, 100);
     m_ctlListView.InsertColumn(2, _T(&quot;Term&quot;), LVCFMT_LEFT, 100);
     m_ctlListView.InsertColumn(2, _T("Term"), LVCFMT_LEFT, 100);


     for (int i=0; i&lt;10; i++)
     for (int i=0; i<10; i++)
     {
     {
         m_pData[i] = new ITEMDATA;
         m_pData[i] = new ITEMDATA;
         m_pData[i]-&gt;pszLastName = (LPTSTR)(LPCTSTR)strData[i][0];
         m_pData[i]->pszLastName = (LPTSTR)(LPCTSTR)strData[i][0];
         m_pData[i]-&gt;pszFirstName = (LPTSTR)(LPCTSTR)strData[i][1];
         m_pData[i]->pszFirstName = (LPTSTR)(LPCTSTR)strData[i][1];
         m_pData[i]-&gt;pszTerm = (LPTSTR)(LPCTSTR)strData[i][2];
         m_pData[i]->pszTerm = (LPTSTR)(LPCTSTR)strData[i][2];


         m_ctlListView.InsertItem(i, strData[i][0]);
         m_ctlListView.InsertItem(i, strData[i][0]);
Line 132: Line 132:
     NMLISTVIEW *pLV = (NMLISTVIEW *) pNMHDR;
     NMLISTVIEW *pLV = (NMLISTVIEW *) pNMHDR;
      
      
     m_ctlListView.SortItems(SortFunc, pLV-&gt;iItem);
     m_ctlListView.SortItems(SortFunc, pLV->iItem);
      
      
     *pResult = 0;
     *pResult = 0;
Line 153: Line 153:
     {
     {
     case 0: // Last Name
     case 0: // Last Name
         nRetVal = strcmp(pData1-&gt;pszLastName,
         nRetVal = strcmp(pData1->pszLastName,
                                 pData2-&gt;pszLastName);
                                 pData2->pszLastName);
         break;
         break;


     case 1: // First Name
     case 1: // First Name
         nRetVal = strcmp(pData1-&gt;pszFirstName,
         nRetVal = strcmp(pData1->pszFirstName,
                                 pData2-&gt;pszFirstName);
                                 pData2->pszFirstName);
         break;
         break;


     case 2: // Term
     case 2: // Term
         nRetVal = strcmp(pData1-&gt;pszTerm, pData2-&gt;pszTerm);
         nRetVal = strcmp(pData1->pszTerm, pData2->pszTerm);
         break;
         break;


Line 178: Line 178:
As a reminder, the ITEMDATA structures which were allocated for the list items need to eventually be destroyed. For this example, the '''WM_DESTROY''' handler for the dialog iterates through the member elements and deletes them.<br />
As a reminder, the ITEMDATA structures which were allocated for the list items need to eventually be destroyed. For this example, the '''WM_DESTROY''' handler for the dialog iterates through the member elements and deletes them.<br />


<pre class="codesample">    for (int i=0; i&lt;10; i++)
<pre class="codesample">    for (int i=0; i<10; i++)
         delete m_pData[i];
         delete m_pData[i];
                 </pre>
                 </pre>

Latest revision as of 12:52, 21 July 2020

Knowledge Base


Article ID: 250614

Article Last Modified on 11/21/2006



APPLIES TO

  • Microsoft Foundation Class Library 4.2



This article was previously published under Q250614

SUMMARY

Not much information has been provided for the process of sorting the items in a ListView control, especially one wrapped by the CListCtrl MFC class. The details are easy to implement and this article attempts to fill the gap in documentation for this useful feature. The example code represents an MFC dialog with a list control set to the LVS_REPORT style.

MORE INFORMATION

In order to sort the items in a ListView control, there must be an LVITEM structure associated with the item. MFC provides this for the developer, allowing an item to be inserted with a simple InsertItem(int nItem, LPCTSTR lpszItem) function call that creates the structure with reasonable defaults. Such a buffer from the underlying complexity can sometimes be misleading. However, the LVITEM structure is an important key to manipulating ListView items, including the sorting mechanism.

The lParam element of LVITEM provides necessary information. When the SortItems function of the CListCtrl class is called, it must provide a function pointer to a sort callback function, and an application-defined DWORD value. During the sort, the callback function is repeatedly invoked as two items from the list control are selected for comparison. The parameters it receives are the lParam element from each item's LVITEM structure, and the DWORD value passed by the SortItems call.

The code below represents a simple example of sorting a list of ten U.S. Presidents in a ListView control. The presidents are initially stored in a static multi-dimensional CString array.

static CString strData[10][3] =
{
    { _T("Washington"), _T("George"), _T("1789-1797") },
    { _T("Adams"), _T("John"), _T("1797-1801") },
    { _T("Jefferson"), _T("Thomas"), _T("1801-1809") },
    { _T("Madison"), _T("James"), _T("1809-1817") },
    { _T("Monroe"), _T("James"), _T("1817-1825") },
    { _T("Adams"), _T("John Quincy"), _T("1825-1829") },
    { _T("Jackson"), _T("Andrew"), _T("1829-1837") },
    { _T("Van Buren"), _T("Martin"), _T("1837-1841") },
    { _T("Harrison"), _T("William Henry"), _T("1841") },
    { _T("Tyler"), _T("John"), _T("1841-1845") }
};
                


The callback sort function may be defined statically as a member of a class or, as here, simply as a global function:

int CALLBACK SortFunc(LPARAM lParam1, LPARAM lParam2, LPARAM lParamSort);
                


The lParam element can be anything from simple to highly complex. Frequently, a structure is useful in this context, allowing multiple pieces of data to be referenced. For this example, a structure called ITEMDATA was defined to hold the three elements comprising a given item:

typedef struct {
    LPTSTR pszLastName;
    LPTSTR pszFirstName;
    LPTSTR pszTerm;
} ITEMDATA, *PITEMDATA;
                


In this example, the structure was defined in a CDialog class's header file, and a member variable of a pointer to an array of 10 was defined:

    ITEMDATA* m_pData[10];
                


A ListView control was added to a dialog, and a member variable defined called m_ctlListView. The items were added in OnInitDialog:

    m_ctlListView.InsertColumn(0, _T("Last Name"), LVCFMT_LEFT, 100);
    m_ctlListView.InsertColumn(1, _T("First Name"), LVCFMT_LEFT, 100);
    m_ctlListView.InsertColumn(2, _T("Term"), LVCFMT_LEFT, 100);

    for (int i=0; i<10; i++)
    {
        m_pData[i] = new ITEMDATA;
        m_pData[i]->pszLastName = (LPTSTR)(LPCTSTR)strData[i][0];
        m_pData[i]->pszFirstName = (LPTSTR)(LPCTSTR)strData[i][1];
        m_pData[i]->pszTerm = (LPTSTR)(LPCTSTR)strData[i][2];

        m_ctlListView.InsertItem(i, strData[i][0]);
        m_ctlListView.SetItemText(i, 1, strData[i][1]);
        m_ctlListView.SetItemText(i, 2, strData[i][2]);
        m_ctlListView.SetItemData(i, (LPARAM)m_pData[i]);
    }
                


Three columns were inserted for the last name, first name, and term of office. Then, for each of the ten items, a new ITEMDATA structure is allocated and initialized from the CString array. The item is inserted very simply, using only the index and the last name string, then the text is set for the other two columns of the item. Finally, the function SetItemData is called, passing the new ITEMDATA as a parameter. This reinitializes the lParam of the item's LVITEM structure, and prepares the way for the sort.

MFC in Visual C++ 6.0 has a problem with header notifications for the ListView control. Although a handler can be added, in the current version it isn't called. For instance, use Class Wizard or the WizardBar to add a Windows Message Handler. If the ID for the ListView control is highlighted, a number of notification messages are available for selection. To sort the items when the header is clicked for a given column, select the notification HDN_ITEMCLICK. An ON_NOTIFY message map entry is generated, as well as a handler function. For the current example, the entry appears as follows:

    ON_NOTIFY(HDN_ITEMCLICK, IDC_LIST1, OnItemclickList1)
                


The problem here is that the notification doesn't actually originate from the ListView control; instead, the Header control created by the ListView sends the notification. The message map entry listed above does not work. The fix is simple, however, since the Header control always has an ID of 0, the macro can be edited to work correctly:

    ON_NOTIFY(HDN_ITEMCLICK, 0, OnItemclickList1)
                


Then, in the OnItemclickList1 handler, the SortItems call is made:

void CSortListDlg::OnItemclickList1(NMHDR* pNMHDR, LRESULT* pResult) 
{
    NMLISTVIEW *pLV = (NMLISTVIEW *) pNMHDR;
    
    m_ctlListView.SortItems(SortFunc, pLV->iItem);
    
    *pResult = 0;
}
                


The notification message header (NMHDR) is actually a ListView notification, NMLISTVIEW, that contains the index to the column that was clicked. In this example, this is represented by iItem. More complex lists might need to reference the iSubItem element of this structure as well. The address of the callback function is passed to SortItems, along with the column number which was clicked.

The SortFunc routine is called repeatedly as pairs of the ListView's items are passed to the function for comparison. The first two parameters are the lParam element of the respective items' LVITEM structure, and the third parameter (application-defined) is the column number provided in the SortItems call.

int CALLBACK SortFunc(LPARAM lParam1, LPARAM lParam2, LPARAM lParamSort)
{
    int nRetVal;

    PITEMDATA pData1 = (PITEMDATA)lParam1;
    PITEMDATA pData2 = (PITEMDATA)lParam2;


    switch(lParamSort)
    {
    case 0: // Last Name
        nRetVal = strcmp(pData1->pszLastName,
                                 pData2->pszLastName);
        break;

    case 1: // First Name
        nRetVal = strcmp(pData1->pszFirstName,
                                 pData2->pszFirstName);
        break;

    case 2: // Term
        nRetVal = strcmp(pData1->pszTerm, pData2->pszTerm);
        break;

    default:
        break;
    }

    return nRetVal;
}
                


The column index passed in lParamSort determines which element of the ITEMDATA objects passed in lParam1 and lParam2 should be used for comparison. The result is returned and the process continues until all items have been sorted.

As a reminder, the ITEMDATA structures which were allocated for the list items need to eventually be destroyed. For this example, the WM_DESTROY handler for the dialog iterates through the member elements and deletes them.

    for (int i=0; i<10; i++)
        delete m_pData[i];
                

REFERENCES

For more information on the ListView common control, consult the Platform SDK documentation under Windows Common Controls in the User Interface Services section.


Additional query words: CListCtrl ListView SortItems LVITEM LVM_SORTITEMS

Keywords: kbcmnctrls kbctrl kbhowto kblistview KB250614