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Using CodeProject - A Day In the Life of an Application - Part 2 of 5By John Simmons / outlaw programmerThe right way to code using CodeProject for occasional support |
VC8.0WinXPVS2005, Dev
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Links to Other Parts of the Series
The following text is identical to Part 1. If you haven't already read that article, this article will be useless to you, so by all means, catch up. We'll wait here. If you have read the Part 1 article, you can skip these intro sections.
This article series is another in my series of "code we really use" articles. There is no unnecessary discussion about theory, no expounding on technique, and no chest-thumping because I thought it all up myself. It's just a bunch of stuff I did to stand one of our applications up. MOST of the stuff in this article is based on other code that I got from CodeProject, and what follows describes the basis for a project I am actively developing and how I integrated articles and help I got from CodeProject.
I've been a member on CodeProject for over six years (as of this writing), and I've come to discover some disturbing trends regarding articles. First, article authors tend to post an article and as time goes by, the author essentially abandons the article and people posting questions are greeted with either silence from the author, or a response that says something like "I don't code in this/that language any more". Let's face it, you can't blame them. Many of the articles I use are three or four years old, and I understand that programmers need to move on and that often means completely abandoning older code.
On the other side of the fence are the people that download the source code and samples associated with a given article. Many times, someone will post a question in an article that has absolutely nothing to do with the article itself, but the subject will be related to a certain aspect of the article. As an example, I posted an article about dynamically building a menu. Recently, someone posted a message in that article that asked about adding winhelp to their dynamically built menu. Then there's the people that encounter an issue (real or imagined) with an article, and expect someone else to fix it for them. These people really annoy me. After all, we're all supposed to be programmers here.
The entire point of this article is to illustrate real-world use of code-snippets, classes and techniques I gleaned from CodeProject over the last six years, including work-arounds to fit code into my sometimes bizarre requirements. Many times, I'll use the VC++ forum to ask a question that will help me understand an article, or massage the article's code for my own use.
The original version of this article started out as a kind of detailed tutorial describing how to use the IDE, and other inane items like that. After a while, I realized this created a huge amount of overhead as far as the article's weight was concerned. Beyond that, I was starting to become bored with the whole thing and I could plainly see that the quality of my writing was beginning to suffer as a result.
The only solution was to start over and make the assumption that you, the user, have a working knowledge of the VS2005 IDE, especially as it relates to creating VC++/MFC applications. This way, we can talk more about the important stuff than suffer through stuff you should already know. I also assume that you have a decent working knowledge of MFC. I'm not saying you have to be an expert, but I assume you can move around in a MFC project without bumping your head on the intricacies of CMainFrame.
Sprinkled throughout the article, you'll find "Coding Notes". These simply describe the way I do things when coding, and why I do them. They are certainly not requirements by any stretch of the imagination, but they often concern code readability and maintainability. I'm sure that many of you have your own ways of doing things, but please keep comments regarding these issues to a minimum. After all, this article is not about style.
The total process of coding the complete demo application requires just an hour or so (if you know all the steps ahead of time). Writing this article series has taken me DAYS, so don't be put off by it's length.
The html and images for this article is included in the project download, but doesn't include the pretty CodeProject formatting. If you can mentally handle that, you can simply refer to this .HTML file and get on with your programming.
Finally, I know there are folks out there that vote my stuff a 1 simply because it's, well, something I wrote. I request that you be mature and professional and restrict your politics to the soapbox when voting. Remember, you're voting on the article, not on the author.
In part one of this article series, we went through the steps of creating a MFC SDI application and making the view a little more interesting by adding the MFC Grid Control to it. In Part 2, we'll create a flat splitter window that can switch views in the primary pane.
Adding a splitter window is really fairly simple in a MFC application, with all of the work is done in the CMainFrame class. Of course, there's a MSDN article available that describes the process of adding a splitter window, but I hate chasing links to find out how to do stuff, and I bet you probably do, too. So, in the interest of just getting the job done, we'll skip the basic splitter, and go right to the one we really want - the flat splitter window.
In the case of my real-world application, I only needed a horizontal splitter, so this discussion is limited to that requirement. Further, I started with Marc Richarme's Flat Splitter Window article, and then added most of the code from Dan Clark's Multi-View Splitter Window article to get the swappable view functionality. This is a perfect example of using two separate articles on CodeProject to create a single specialized class. Because of the combining of code from these two articles, you should probably use the code I provided in my sample project unless you just want to go through the experience of doing the same thing on your own.
In Part 1, we added the MFC Grid Control to the CSDIMultSpliView class (created by the Application Wizard). While this is all fine and dandy, we're about to get a bit fancier with swappable views. Toward this end, we need to create the views that we'll be swapping.
This view will be used to display the grid.
CPrimaryView, and select the base class. For our sample, we'll use CView. Click FINISH. 
CSDIMultiSplitView class to the CPrimaryView class. You should use the IDE to add the appropriate overrides in this class. If you need detailed instructions, refer to Part 1 of this article series. In short, you need to override OnInitialUpdate and OnCmdMsg, and add message handlers for OnSize and OnEraseBkgnd. Just copy the code from within the resulting functions from CSDIMultiApp1View to this class. ifdef'd around the grid control code so that it wouldn't be included when the application was compiled. This will be a simple GDI view that contains text in the form of a report (actually, it will be a simple collection of lines created and displayed in a for loop). This view will be able to print as well (no easy task as you will soon see).
Here's a new version of the OnDraw() function to make the view interesting. Don't be alarmed at the number of lines we're putting on the screen because we'll be using this to test the printing functionality we'll be adding a little later.
void CSecondaryView::OnDraw(CDC* pDC) { CDocument* pDoc = GetDocument(); CFont docFont; CFont* pOldFont; // construct and select our font BuildFont(pDC, &docFont, 11, false, false); pOldFont = pDC->SelectObject(&docFont); // Get a baseline lineheight value. We add 2 pixels to the calculated // lineheight so we have a little white space betwen lines of text. CString sText = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz"; int nLineHeight = pDC->GetTextExtent(sText).cy + 2; // set our x position int nMargin = 10; // limit how many lines we draw int nMaxLines = 70; // draw the lines for (int i = 1; i <= nMaxLines; i++) { sText.Format("This is line number %02d of %d", i, nMaxLines); } pDC->SelectObject(pOldFont); }
And to support the font we need, here's the BuildFont function that you have to add to the class. The more-eagle-eyed user may recognize this function as being the same one we used in the from the CFlatSplitterWnd class.
BOOL CSecondaryView::BuildFont(CDC* pDC, CFont* pFont, int nFontHeight, bool bBold, bool bItalic) { nFontHeight = -MulDiv(nFontHeight, pDC->GetDeviceCaps(LOGPIXELSY), 72); CString sFontName = _T("Arial"); int nWeight = (bBold) ? FW_BOLD : FW_NORMAL; BYTE nItalic = (bItalic) ? 1 : 0; return pFont->CreateFont(nFontHeight, 0, 0, 0, nWeight, nItalic, 0, 0, DEFAULT_CHARSET, OUT_CHARACTER_PRECIS, CLIP_CHARACTER_PRECIS, DEFAULT_QUALITY, DEFAULT_PITCH | FF_DONTCARE, sFontName); }
Following the same steps described above, create another new view class called CInfoView, and once again, set the base class to CSrollView.
Here's some code to make the view more interesting looking. The only difference between this code and the code we used in the CSecondaryView class is the number of lines we're putting on the screen. Since we won't be making this view printable, we don't need as many lines with which to test the view.
void CInfoView::OnDraw(CDC* pDC) { CDocument* pDoc = GetDocument(); CFont docFont; CFont* pOldFont; // construct and select our font BuildFont(pDC, &docFont, 11, false, false); pOldFont = pDC->SelectObject(&docFont); // Get a baseline lineheight value. We add 2 pixels to the calculated // lineheight so we have a little white space betwen lines of text. CString sText = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz"; int nLineHeight = pDC->GetTextExtent(sText).cy + 2; // set our x position int nMargin = 10; // limit how many lines we draw int nMaxLines = 20; // draw the lines for (int i = 1; i <= nMaxLines; i++) { sText.Format("This is line number %02d of %d", i, nMaxLines); } pDC->SelectObject(pOldFont); }
Finally, put a copy of the BuildFont() function into this class as well.
Go ahead and check the Solution Explorer pane for the appropriate files (or the ClassView pane if that's what trips your trigger). All that's left to complete this view's basic functionality is to add some code in OnDraw that fills the view up with text. This will server two purposes - providing immediate and gratuitous visual feedback when we switch between this view and the grid view, and setting us up to add some printing functionality a little later in the article. For now, here's a new OnDraw function:
Following the same steps described above, create another new view class called CSecondaryView.
Following the same steps described above, create another new view class called CInfoView.
Here's some code to make the view more intersting looking.
One of the tasks for our real-world application was to provide a split view that allows the user to see some specific type of data in another window. The only real requirements provided were that the splitter bar be visible all the time, and that it split the main window horizontally. In the interest of brevity and keeping everything within the intended scope, we'll ignore other kinds of splits and issues regarding the combination of horizontal and vertical splitters.
Beyond the stated requirements, it was left to me to make it happen anyway I wanted. After looking around a bit on CodeProject, I found a good starting point with the FlatSplitterWnd class from Marc Richarme. Essentially, this class provided me with an always-visible flat splitter window, and was my job to make it pretty. I chose to make the splitter bar itself yellow, and put the word "Info" on the bar with two arrowheads pointing down. The idea here was to make it easy to see. Without further delay, here are the steps I followed to implement this feature.
CFlatSplitterWnd::CFlatSplitterWnd()
{
m_cxSplitter = m_cySplitter = 3 + 1 + 1;
m_cxBorderShare = m_cyBorderShare = 0;
m_cxSplitterGap = m_cySplitterGap = 3 + 1 + 1;
m_cxBorder = m_cyBorder = 1;
}
Since we need room for our bar text, we need to make the bar taller, so I changed the code above to this:
CFlatSplitterWnd::CFlatSplitterWnd()
{
// we need our splitter bar to be really wide/tall to
// support the text - jms
m_cxSplitter = m_cySplitter = 15 + 1 + 1;
m_cxBorderShare = m_cyBorderShare = 0;
m_cxSplitterGap = m_cySplitterGap = 15 + 1 + 1;
m_cxBorder = m_cyBorder = 1;
// we need this for swappable views
m_bFirstView = true;
}
void CFlatSplitterWnd::OnDrawSplitter(CDC* pDC, ESplitType nType, const CRect& rectArg) { // Let CSplitterWnd handle everything but the border-drawing if((nType != splitBorder) || (pDC == NULL)) { CSplitterWnd::OnDrawSplitter(pDC, nType, rectArg); return; } ASSERT_VALID(pDC); pDC->Draw3dRect(rectArg, GetSysColor(COLOR_BTNSHADOW), GetSysColor(COLOR_BTNHIGHLIGHT)); }
The key to my modification lies in the ESplitType parameter. There are four possible values we can expect, but we're only interested in one - splitBar. The revised version of the OnDrawSplitter function (shown below) includes sufficient comments to preclude me from providing further descriptions.
if((nType != splitBorder && nType != splitBar) || (pDC == NULL)) { CSplitterWnd::OnDrawSplitter(pDC, nType, rectArg); return; } ASSERT_VALID(pDC); switch (nType) { case splitBorder : { pDC->Draw3dRect(rectArg, GetSysColor(COLOR_BTNSHADOW), GetSysColor(COLOR_BTNHIGHLIGHT)); } break; case splitBar : { // we need to get the window rect so we can center our // text CRect wndRect; GetWindowRect(&wndRect); // get ready to draw our yellow rectangle CRect tempRect = rectArg; // draw the 3D rectangle (do I really need to do this?) pDC->Draw3dRect(rectArg, GetSysColor(COLOR_BTNSHADOW), GetSysColor(COLOR_BTNHIGHLIGHT)); CFont docFont; CFont* pOldFont; CBrush newBrush; CBrush* pOldBrush; // make the brush yellow and select it newBrush.CreateSolidBrush(RGB(255,255,0)); pOldBrush = pDC->SelectObject(&newBrush); // construct and select our font BuildFont(pDC, &docFont, 9, false, false); pOldFont = pDC->SelectObject(&docFont); // build our title text CString sTitle = "INFO"; CSize sz = pDC->GetTextExtent(sTitle); // make our rectangle 1 pixel smaller on all sides tempRect.DeflateRect(1,1,1,1); // calculate start position for text int xPos = (int)((wndRect.Width() - sz.cx) * 0.50); // make the text black, and the background (for drawing // text) transparent pDC->SetTextColor(RGB(0,0,0)); pDC->SetBkMode(TRANSPARENT); // draw our rectangle (uses default black pen) pDC->Rectangle(&tempRect); // free the brush resources pDC->SelectObject(pOldBrush); newBrush.DeleteObject(); // make sure our drawing rectangle is large enough to // accomodate the text AND the arrowheads, and draw the // text if we can bool bCanDrawText = (xPos - 30 > tempRect.left); if (bCanDrawText) { pDC->TextOut(xPos, tempRect.top, sTitle); } // free the font resource pDC->SelectObject(pOldFont); // if we have room to draw the text, then we have room // for the arrowheads as well if (bCanDrawText) { // create a brush for the down-arrow heads newBrush.CreateSolidBrush(RGB(0,0,0)); pOldBrush = pDC->SelectObject(&newBrush); // adjust the rectangle tempRect.DeflateRect(0,3,0,4); CPoint pts[4]; // draw the down-pointing arrowheads for (int i = 0; i <=1; i++) { int x = (i == 0) ? tempRect.Width() - sz.cx - 30 : tempRect.Width() + sz.cx + 15; int y = tempRect.top + 2; x = (int)(x * 0.50); pts[0] = CPoint(x, y); pts[1] = CPoint(x + 10, y); pts[2] = CPoint(x + 5, y + 5); pts[3] = CPoint(x, y); pDC->Polygon(pts, 4); } // free our resources pDC->SelectObject(pOldBrush); newBrush.DeleteObject(); } } break; }
| Coding Notes |
| This version of CFlatSplitterWnd only supports the drawing of horizontal splitter bars. Later in this series of articles, we'll try to fix that. |
I also added a function to build the font we need. To keep the OnDrawSplitter() function as clean as possible, I moved this code into its own function, as shown below.
//---------------------------------------------------------------------- // Added this function to build a suitable font for the INFO text - jms //---------------------------------------------------------------------- BOOL CFlatSplitterWnd::BuildFont(CDC* pDC, CFont* pFont, int nFontHeight, bool bBold, bool bItalic) { // set the font properties CString sFontName = _T("Arial"); int nWeight = (bBold) ? FW_BOLD : FW_NORMAL; BYTE nItalic = (bItalic) ? 1 : 0; nFontHeight = -MulDiv(nFontHeight, pDC->GetDeviceCaps(LOGPIXELSY), 72); // create the font return pFont->CreateFont(nFontHeight, 0, 0, 0, nWeight, nItalic, 0, 0, DEFAULT_CHARSET, OUT_CHARACTER_PRECIS, CLIP_CHARACTER_PRECIS, DEFAULT_QUALITY, DEFAULT_PITCH | FF_DONTCARE, sFontName); }
Because we're just copy/pastng from another article into our existing splitter window class, there's no need to actually use any of the files from Dan's article. Well just talk about the functions I copy/pasted, and the changes I made to those functions. Of course, you could alternately just derive this class from CFlatSplitterWnd (or vice-versa), but I personally don't like a lot of files, not to mention taxing VS2005's ability to keep up with everything (the more files/classes you have, the longer it takes the IDE to perform certain funcitons, like updating intellisense).
The AddSwitchableView function is called from the CMainFrame OnCreateClient() function, and is called for each view you want to make swappable. When I first looked at this code, I decided there were slight improvements that could be made, so these functions don't quite match Dan's article. Changes to the original code are noted in the comments.
/////////////////////////////////////////////////////////////////////////// /////////////////////////////////////////////////////////////////////////// //// Replaceable Views //// //// Source - copied from CodeProject article by Dan Clark //// http://www.codeproject.com/splitter/DanCMultiViewSplitter.asp ////////////////////////////////////////////////////////////////////////// ////////////////////////////////////////////////////////////////////////// //------------------------------------------------------------------------ // Adds a view - jms version implements the following changes from the // original code. // // 1) I think a global variable that indicates the first view works // better than having the calling function determine the condition. // I default this variable to true in the constructor. // // 2) Eliminating the isFirstView parameter also allowed me to eliminate // the original altID from the parameter list. // // The two changes described above resulted in a shorter parameter list // and cleaner code. //--------------------------------------------------------------------- bool CFlatSplitterWnd::AddSwitchableView(CRuntimeClass* pView, CCreateContext* pContext, CRect& size, UINT viewID) { CWnd* pWin = (CWnd*) pView->CreateObject(); DWORD style = WS_CHILD; if (m_bFirstView) { style |= WS_VISIBLE; m_bFirstView = false; } pWin->Create(NULL, NULL, style, size , this, viewID, pContext); views[pWin] = viewID; return true; }
The SwitchView() function actually does the work of switching views. I changed most of the comments and mad a small change regarding the setting of the window ID for the old view.
//---------------------------------------------------------------------- // Hides one view and shows another. // //Note from jms - notice that any splitter pane can hold swappable views. //---------------------------------------------------------------------- bool CFlatSplitterWnd::SwitchView(UINT id, int paneRow, int paneCol) { CView* pOldView = (CView*) GetPane(paneRow, paneCol); // get current // view // if we don't have an old view set, get out. // if you assert here, you haven't properly initilaized the splitter // window. ASSERT(pOldView != NULL); if (pOldView == NULL) { MessageBeep(0); return false; } // get the new view specified by the id parameter CView* pNewView = (CView*)GetDlgItem(id); // if the new view is null, get out // if you assert here, you haven't properly initilaized the splitter // window. ASSERT(pNewView != NULL); if (pNewView == NULL ) { return false; } CFrameWnd* mainWnd = (CFrameWnd*)AfxGetMainWnd(); // if you assert here, something REALLY bad happend. ASSERT(mainWnd != NULL); if (mainWnd == NULL) // serious prob { return false; } // set the active view to the specified view if (mainWnd->GetActiveView() == pOldView) { mainWnd->SetActiveView(pNewView); } // show/hide the windows - do it in this order to avoid flashing pNewView->ShowWindow(SW_SHOW); pOldView->ShowWindow(SW_HIDE); // set the window id from our view map pNewView->SetDlgCtrlID(IdFromRowCol(paneRow, paneCol)); // we need to reset the old views ID so we can look it up again later // jms change - since we actually got to this point in the code, it's // safe to assume that the old view is really somewhere in the view map. CWnd* pCwnd =(CWnd*)pOldView; if (views.find(pCwnd) != views.end()) { UINT oldId = views[pCwnd]; pOldView->SetDlgCtrlID(oldId); } // clean up RecalcLayout(); pOldView->Invalidate(); pNewView->Invalidate(); return true; }
The GetViewPtr() function wasn't changed from the original version. It simply retrieves a pointer to the view mapped to the specified ID.
//--------------------------------------------------------------------- // Gets the window corresponding to the specified ID //--------------------------------------------------------------------- CWnd* CFlatSplitterWnd::GetViewPtr(UINT id, int paneRow, int paneCol) { map<CWnd*, UINT>::iterator It, Iend = views.end(); for (It = views.begin(); It != Iend; It++) { if ((*It).second == id) { return (*It).first; } } return NULL; }
The GetIsActiveView() function was added by yours truly to assist in determining a given view's active status, and is called from CMainFrame.
//----------------------------------------------------------------------- // This function is called by CMainFrame OnUpdate functions for the view // selection menu items. //----------------------------------------------------------------------- BOOL CFlatSplitterWnd::GetIsActiveView(UINT nID, int nPaneRow, int nPaneCol) { CWnd* pOldWnd = GetPane(nPaneRow, nPaneCol); CWnd* pNewWnd = GetViewPtr(nID, nPaneRow, nPaneCol); return (pOldWnd == pNewWnd); }
The following lines were added to CFlatSplitterWnd.H:
class CFlatSplitterWnd : public CSplitterWnd { public: // from http://www.codeproject.com/splitter/DanCMultiViewSplitter.asp map<CWnd*, UINT> views; bool m_bFirstView; CWnd* GetViewPtr (UINT id, int paneRow, int paneCol); bool SwitchView (UINT id, int paneRow, int paneCol); bool AddSwitchableView(CRuntimeClass* pView, CCreateContext* pContext, CRect& size, UINT viewID); BOOL GetIsActiveView (UINT nID, int nPaneRow, int nPaneCol);
#define IDC_PANE0_SECONDARY_VIEW 49001 #define IDC_PANE0_PRIMARY_VIEW 49002 #define IDC_PANE1_PRIMARY_VIEW 49003
BOOL CMainFrame::OnCreateClient(LPCREATESTRUCT lpcs,
CCreateContext* pContext)
{
// TODO: Add your specialized code here and/or call the base class
return CFrameWnd::OnCreateClient(lpcs, pContext);
}
Replace that function with the following version. The comments in this code block should sufficiently explain what's happening.
BOOL CMainFrame::OnCreateClient(LPCREATESTRUCT lpcs,
CCreateContext* pContext)
{
CRect cr;
GetWindowRect(&cr);
// we need to subtract a reasonable value from the returned screen
// height so that when we actually create the view, it won't cover
// up part of the screen with it's soon-to-be-resized rectangle.
int nHeight = ::GetSystemMetrics(SM_CYSCREEN) - 100;
// our splitter window will be static
if (!m_mainSplitter.CreateStatic(this, 2, 1))
{
AfxMessageBox("Error setting up splitter window", MB_ICONERROR);
return FALSE;
}
// add our replacable views - the view IDs are defined in constants.h
m_mainSplitter.AddSwitchableView( RUNTIME_CLASS(CPrimaryView ),
pContext,
CRect(0, 1, cr.Width(), nHeight),
IDC_PANE0_PRIMARY_VIEW);
m_mainSplitter.AddSwitchableView( RUNTIME_CLASS(CSecondaryView),
pContext,
CRect(0, 1, cr.Width(), nHeight),
IDC_PANE0_SECONDARY_VIEW);
// create views in the splitter
// we need a blank view to start off in the upper pane as the "old
// view because part of the initialization of the application is
// changing to the proper view. We'll use the view created by the
// application wizard.
m_mainSplitter.CreateView(0, 0, RUNTIME_CLASS(CSDIMultiApp1View),
CSize(cr.Width(), nHeight), pContext);
// and for the lower pane, we'll use our CInfoView class.
m_mainSplitter.CreateView(1, 0, RUNTIME_CLASS(CInfoView),
CSize(cr.Width(), 0), pContext);
return TRUE;
}
CPrimaryView* CMainFrame::GetPrimaryView()
{
return (dynamic_cast<CPrimaryView*>(m_mainSplitter.GetPane(0,0)));
}
CSecondaryView* CMainFrame::GetSecondaryView()
{
return (dynamic_cast<CSecondaryView*>(m_mainSplitter.GetPane(0,0)));
}
CInfoView* CMainFrame::GetInfoView()
{
return (dynamic_cast<CInfoView*>(m_mainSplitter.GetPane(1,0)));
}
As you can see, these functions merely return a pointer to the active view that is indicated in the name of the function. Since we're using dynamic_cast, the pointer will be NULL if the view returned is not of the type specified between the < > symbols.
Now that we have all of our view classes coded and the splitter window implemented, we need to provide the user wth a way to switch the views.
The user will be able to switch between the Primary View and the Secondary View via menu items. Adding menus in a MFC app is fairly trivial.
void CMainFrame::OnViewPrimaryview() { } void CMainFrame::OnUpdateViewPrimaryview(CCmdUI *pCmdUI) { } void CMainFrame::OnViewSecondaryview() { } void CMainFrame::OnUpdateViewSecondaryview(CCmdUI *pCmdUI) { }
void CMainFrame::OnViewPrimaryview() { m_mainSplitter.SwitchView(IDC_PANE0_PRIMARY_VIEW, 0, 0); } void CMainFrame::OnUpdateViewPrimaryview(CCmdUI *pCmdUI) { pCmdUI->Enable(!m_mainSplitter.GetIsActiveView( IDC_PANE0_PRIMARY_VIEW,0,0)); } void CMainFrame::OnViewSecondaryview() { m_mainSplitter.SwitchView(IDC_PANE0_SECONDARY_VIEW, 0, 0); } void CMainFrame::OnUpdateViewSecondaryview(CCmdUI *pCmdUI) { pCmdUI->Enable(!m_mainSplitter.GetIsActiveView( IDC_PANE0_SECONDARY_VIEW,0,0)); }
Rebuild the solution, and run the app. The 1st image shows the app the way it's initally displayed. The 2nd screenshot shows what the app looks like when you click/drag the splitter bar. The 3rd image illustrates the menu selection of the Secondary view, and the 4th image shows the secondary view.
In Part 3, we'll be adding a custom status bar class and some multi-threading components, again using articles found here on CodeProject.
Due to the length of this article, I've decided to break it up into several parts. If the site editors did what I asked, all of the subsequent parts should be in the same code section of the site. Each part has it's own source code, so as you read the subsequent parts, make sure you download the source code for that part (unless you're doing manually all the stuff I'm outlining in the article in question).
In the interest of maintaining some cohesiveness (and sanity), please vote on all of the parts, and vote the same way. This helps keep the articles together in the section. Thanks for understanding.
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Last Updated: 15 Apr 2008 Editor: Sean Ewington |
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