日前从网上看了一篇关于此问题的文章,贴给你希望对你有帮助:
This was found else
where but this place needs it
Q &
A - How can I put a button on a form's caption bar?
I've seen some programs that add text or buttons on the title bar of a form. How can Ido
this in Delphi?
I got my first insight into solving this problem when I wrote a previous tip that covered rolling up the client area of forms so that only the caption bar showed. In my research for that tip, I came across the WMSetText message that is used for drawing on a form's canvas. I wrote a sample application to test drawing in the caption area. The only problem with my original code was that the button would disappear when I resized or moved the form.
I turned to Delphi/Pascal guru Neil Rubenking for help. He pointed me in the direction of his book, Delphi Programming Problem Solver, which contains an example fordo
ing this exact thing. The code below is an adaptation of the example in his book. The most fundamental difference between our examples is that I wanted to make a speedbutton with a bitmap glyph, and Neil actually drew a shape directly on the canvas. He also placed the button created in 16-bit Delphi on the left-hand side of the frame, and Win32 button placement was on the right. I wanted my buttons to be placed on the right for both versions, so I wrote appropriate code to handle that. The deficiency in my code was the lack of handlers for activation and painting in the non-client area of the form.
One thing I'm continually discovering is that there is a very definitive structure in Windows ?a definite hierarchy of functions. I've realized that the thing that makes Windows programming at the API level difficult is the sheer number of functions in the API set. For those who are reluctant to dive into the WinAPI, think in terms of categories first, then
narrow your search. You'll find thatdo
ing it this way will make your life much easier.
What makes all of this work is Windows messages. The messages we're interested in here are not the usual Windows messages handled by plain-vanilla Windows apps, but are specific to an area of a window called the non-client area. The client area of a window is the part inside the border where most applications present information. The non-client area consists of the window's borders, caption bar, system menu and sizing buttons. The Windows messages that pertain to this area have the naming convention of WM_NCMessageType. Taking the name apart, 'WM' stands for Windows Message, 'NC' stands for Non-client area, and MessageType is the type of message being trapped. For example, WM_NCPaint is the paint message for the non-client area. Taking into account the hierarchical and categorical nature of the Windows API, nomenclature is a very big part of it;
especially with Windows messages. If you look in the help file under messages, peruse through the list of messages and you will see the order that is followed.
Let's look at a list of things that we need to consider to add a button to the title bar of a form:
We need to have a function to draw the button.
We'll have to trap drawing and painting events so that our button stays visible when the form activates, resizes or moves.
We're dropping a button on the title bar, so we have to have a way of trapping for a mouse click on the button.
I'll now discuss these topics, in the above order.
Drawing a TRect as a Button
You can't drop VCL objects onto a non-client area of a window, but you can draw on it and simulate the appearance of a button. In order to perform drawing in the title bar of a window, you have todo
three very important things, in order:
You must get the current measurements of the window and the size of the frame bitmaps so you know what area to draw in and how big to draw the rectangle.
then
you have to define a TRect structure with the proper size and position within the title bar.
Finally, you have to draw the TRect to appear as a button, then
add any glyphs or text you might want to draw to the buttonface.
All of this is accomplished in a single call. For this program we make a call to the DrawTitleButtonprocedure, which is listed below:
procedure TTitleBtnForm.DrawTitleButton;
var
bmap : TBitmap;
{Bitmap to be drawn - 16 X 16 : 16 Colors}
XFrame, {X and Y size of Sizeable area of Frame}
YFrame,
XTtlBit, {X and Y size of Bitmaps in caption}
YTtlBit : Integer;
begin
{Get size of form frame and bitmaps in title bar}
XFrame := GetSystemMetrics(SM_CXFRAME);
YFrame := GetSystemMetrics(SM_CYFRAME);
XTtlBit := GetSystemMetrics(SM_CXSIZE);
YTtlBit := GetSystemMetrics(SM_CYSIZE);
{$IFNDEF WIN32}
TitleButton := Bounds(Width - (3 * XTtlBit) - ((XTtlBit div 2) - 2),
YFrame - 1,
XTtlBit + 2,
YTtlBit + 2);
{$else
} {Delphi 2.0 positioning}
if (GetVerInfo = VER_PLATFORM_WIN32_NT) then
TitleButton := Bounds(Width - (3 * XTtlBit) - ((XTtlBit div 2) - 2),
YFrame - 1,
XTtlBit + 2,
YTtlBit + 2)
else
TitleButton := Bounds(Width - XFrame - 4*XTtlBit + 2,
XFrame + 2,
XTtlBit + 2,
YTtlBit + 2);
{$ENDIF}
Canvas.Handle := GetWindowDC(Self.Handle);
{Get Device context for drawing}
try
{Draw a button face on the TRect}
DrawButtonFace(Canvas, TitleButton, 1, bsAutoDetect, False, False, False);
bmap := TBitmap.Create;
bmap.LoadFromFile('help.bmp');
with TitleButtondo
{$IFNDEF WIN32}
Canvas.Draw(Left + 2, Top + 2, bmap);
{$else
}
if (GetVerInfo = VER_PLATFORM_WIN32_NT) then
Canvas.Draw(Left + 2, Top + 2, bmap)
else
Canvas.StretchDraw(TitleButton, bmap);
{$ENDIF}
finally
ReleaseDC(Self.Handle, Canvas.Handle);
bmap.Free;
Canvas.Handle := 0;
end;
end;
Step 1 above is accomplished by making four calls to the WinAPI function GetSystemMetrics, asking the system for the width and height of the window that can be sized (SM_CXFRAME and SM_CYFRAME), and the size of the bitmaps contained on the title bar (SM_CXSIZE and SM_CYSIZE).
Step 2 is performed with the Bounds function, which returns a TRect defined by the size and position parameters that are supplied to it. Notice that I used some conditional compiler directives here. This is because the size of the title bar buttons in Windows 95 and Windows 3.1 are different, so they have to be sized differently. And since I wanted to be able to compile this in either version of Windows, I used a test for the predefined symbol, WIN32, to see which version of Windows the program is compiled under. However, since the Windows NT UI is the same as Windows 3.1, it's necessary to grab further version information under the Win32 conditional to see if the Windows version is Windows NT. If so, we define the TRect to be just like the Windows 3.1 TRect.
To perform Step 3, we make a call to the Buttons unit's DrawButtonFace to draw button features within the TRect that we defined. As added treat, I included code to draw a bitmap in the button. You'll see that I used a conditional compiler directive to draw the bitmap under different versions of Windows. I did this because the bitmap I used was 16x16 pixels, which might be too big for Win95 buttons. So I used StretchDraw under Win32 to stretch the bitmap to the size of the button.
Trapping the Drawing and Painting Events
You must make sure that the button will stay visible every time the form repaints itself. Painting occurs in response to activation and resizing, which fire off paint and text setting messages that will redraw the form. If youdo
n't have a facility to redraw your button, you'll lose it every time a repaint occurs. So what we have todo
is write event handlers which will perform their default actions and redraw our button when they fire off. The following four procedures handle the paint triggering and painting events:
{Paint triggering events}
procedure TForm1.WMNCActivate(var Msg : TWMNCActivate);
begin
Inherited;
DrawTitleButton;
end;
procedure TForm1.FormResize(Sender: TObject);
begin
Perform(WM_NCACTIVATE, Word(Active), 0);
end;
{Painting events}
procedure TForm1.WMNCPaint(var Msg : TWMNCPaint);
begin
Inherited;
DrawTitleButton;
end;
procedure TForm1.WMSetText(var Msg : TWMSetText);
begin
Inherited;
DrawTitleButton;
end;
Every time one of these events fires off, it makes a call to the DrawTitleButton procedure. This will ensure that our button is always visible on the title bar. Notice that we use the default handler OnResize on the form to force it to perform a WM_NCACTIVATE.
Handling Mouse Clicks
Now that we've got code that draws our button and ensures that it's always visible, we have to handle mouse clicks on the button. The way wedo
this is with two procedures. The first procedure tests to see if the mouse click was in the area of our button, then
the second procedure actually performs the code execution associated with our button. Let's look at the code:
{Mouse-related procedures}
procedure TForm1.WMNCHitTest(var Msg : TWMNCHitTest);
begin
Inherited;
{Check to see if the mouse was clicked in the area of the button}
with Msgdo
if PtInRect(TitleButton, Point(XPos - Left, YPos - Top)) then
Result := htTitleBtn;
end;
procedure TForm1.WMNCLButtonDown(var Msg : TWMNCLButtonDown);
begin
inherited;
if (Msg.HitTest = htTitleBtn) then
ShowMessage('You pressed the new button');
end;
The first procedure WMNCHitTest(var Msg : TWMNCHitTest) is a hit tester message to determine where the mouse was clicked in the non-client area. In this procedure we test if the point defined by the message was within the bounds of our TRect by using the PtInRect function. If the mouse click was performed in the TRect, then
the result of our message is set to htTitleBtn, which is a constant that was declared as htSizeLast + 1. htSizeLast is a hit test constant generated by hit test events to test where the last hit occurred.
The second procedure is a custom handler for a left mouse click on a button in the non-client area. Here we test if the hit test result was equal to htTitleBtn. If it is, we show a message. You can make any call you choose to at this point.
Putting it All Together
Let's look at the entire code in the form to see how it all works together:
unit Capbtn;
interface
uses
SysUtils, WinTypes, WinProcs, Messages, Classes, Graphics, Controls,
Forms, Dialogs, Buttons;
type
TTitleBtnForm = class(TForm)
procedure FormResize(Sender: TObject);
private
TitleButton : TRect;
procedure DrawTitleButton;
{Paint-related messages}
procedure WMSetText(var Msg : TWMSetText);
message WM_SETTEXT;
procedure WMNCPaint(var Msg : TWMNCPaint);
message WM_NCPAINT;
procedure WMNCActivate(var Msg : TWMNCActivate);
message WM_NCACTIVATE;
{Mousedo
wn-related messages}
procedure WMNCHitTest(var Msg : TWMNCHitTest);
message WM_NCHITTEST;
procedure WMNCLButtonDown(var Msg : TWMNCLButtonDown);
message WM_NCLBUTTONDOWN;
function GetVerInfo : DWORD;
end;
var
TitleBtnForm: TTitleBtnForm;
const
htTitleBtn = htSizeLast + 1;
implementation
{$R *.DFM}
procedure TTitleBtnForm.DrawTitleButton;
var
bmap : TBitmap;
{Bitmap to be drawn - 16 X 16 : 16 Colors}
XFrame, {X and Y size of Sizeable area of Frame}
YFrame,
XTtlBit, {X and Y size of Bitmaps in caption}
YTtlBit : Integer;
begin
{Get size of form frame and bitmaps in title bar}
XFrame := GetSystemMetrics(SM_CXFRAME);
YFrame := GetSystemMetrics(SM_CYFRAME);
XTtlBit := GetSystemMetrics(SM_CXSIZE);
YTtlBit := GetSystemMetrics(SM_CYSIZE);
{$IFNDEF WIN32}
TitleButton := Bounds(Width - (3 * XTtlBit) - ((XTtlBit div 2) - 2),
YFrame - 1,
XTtlBit + 2,
YTtlBit + 2);
{$else
} {Delphi 2.0 positioning}
if (GetVerInfo = VER_PLATFORM_WIN32_NT) then
TitleButton := Bounds(Width - (3 * XTtlBit) - ((XTtlBit div 2) - 2),
YFrame - 1,
XTtlBit + 2,
YTtlBit + 2)
else
TitleButton := Bounds(Width - XFrame - 4*XTtlBit + 2,
XFrame + 2,
XTtlBit + 2,
YTtlBit + 2);
{$ENDIF}
Canvas.Handle := GetWindowDC(Self.Handle);
{Get Device context for drawing}
try
{Draw a button face on the TRect}
DrawButtonFace(Canvas, TitleButton, 1, bsAutoDetect, False, False, False);
bmap := TBitmap.Create;
bmap.LoadFromFile('help.bmp');
with TitleButtondo
{$IFNDEF WIN32}
Canvas.Draw(Left + 2, Top + 2, bmap);
{$else
}
if (GetVerInfo = VER_PLATFORM_WIN32_NT) then
Canvas.Draw(Left + 2, Top + 2, bmap)
else
Canvas.StretchDraw(TitleButton, bmap);
{$ENDIF}
finally
ReleaseDC(Self.Handle, Canvas.Handle);
bmap.Free;
Canvas.Handle := 0;
end;
end;
{Paint triggering events}
procedure TTitleBtnForm.WMNCActivate(var Msg : TWMNCActivate);
begin
Inherited;
DrawTitleButton;
end;
procedure TTitleBtnForm.FormResize(Sender: TObject);
begin
Perform(WM_NCACTIVATE, Word(Active), 0);
end;
{Painting events}
procedure TTitleBtnForm.WMNCPaint(var Msg : TWMNCPaint);
begin
Inherited;
DrawTitleButton;
end;
procedure TTitleBtnForm.WMSetText(var Msg : TWMSetText);
begin
Inherited;
DrawTitleButton;
end;
{Mouse-related procedures}
procedure TTitleBtnForm.WMNCHitTest(var Msg : TWMNCHitTest);
begin
Inherited;
{Check to see if the mouse was clicked in the area of the button}
with Msgdo
if PtInRect(TitleButton, Point(XPos - Left, YPos - Top)) then
Result := htTitleBtn;
end;
procedure TTitleBtnForm.WMNCLButtonDown(var Msg : TWMNCLButtonDown);
begin
inherited;
if (Msg.HitTest = htTitleBtn) then
ShowMessage('You pressed the new button');
end;
function TTitleBtnForm.GetVerInfo : DWORD;
var
verInfo : TOSVERSIONINFO;
begin
verInfo.dwOSVersionInfoSize := SizeOf(TOSVersionInfo);
if GetVersionEx(verInfo) then
Result := verInfo.dwPlatformID;
{Returns:
VER_PLATFORM_WIN32s Win32s on Windows 3.1
VER_PLATFORM_WIN32_WINDOWS Win32 on Windows 95
VER_PLATFORM_WIN32_NT Windows NT }
end;
end.
Suggestions for Exploring
You might want to play around with this code a bit to customize it to your own needs. For instance, if you want to add a bigger button, add pixels to the XTtlBit var. You can also mess around with creating a floating toolbar that is purely on the title bar. Also, now that you have a means of interrogating what's going on in the non-client area of the form, you might want to play around with the default actions taken with the other buttons like the System Menu button to perhaps display your own custom menu.
Take heed, though: Playing around with Windows messages can be dangerous. Save your work constantly, and be prepared for some system crashes while you experiment.