Difference between revisions of "Build custom dock manager"

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Line 158: Line 158:
 
     Rectangle(1, 1, AControl.Width - 1, GrabberSize - 1);
 
     Rectangle(1, 1, AControl.Width - 1, GrabberSize - 1);
 
     TextOut(6, 2, AControl.Caption);
 
     TextOut(6, 2, AControl.Caption);
 +
  end;
 +
end;</delphi>
 +
 +
For painting dock site canvas is responding method PaintSite so we need implement it. Only visible controls belonged to dock site should be painted.
 +
 +
<delphi>procedure TCustomDockManager.PaintSite(DC: HDC);
 +
var
 +
  Canvas: TControlCanvas;
 +
  Control: TControl;
 +
  I: Integer;
 +
  R: TRect;
 +
begin
 +
  Canvas := TControlCanvas.Create;
 +
  try
 +
    Canvas.Control := FDockSite;
 +
    Canvas.Lock;
 +
    try
 +
      Canvas.Handle := DC;
 +
      try
 +
        for I := 0 to FDockSite.ControlCount - 1 do
 +
        begin
 +
          Control := FDockSite.Controls[I];
 +
          if Control.Visible and (Control.HostDockSite = FDockSite) then
 +
          begin
 +
            R := Control.BoundsRect;
 +
            Control.SetBounds(0, GrabberSize, FDockSite.Width - Control.Left,
 +
              FDockSite.Height - Control.Top);
 +
            Canvas.FillRect(R);
 +
            DrawGrabber(Canvas, Control);
 +
          end;
 +
        end;
 +
      finally
 +
        Canvas.Handle := 0;
 +
      end;
 +
    finally
 +
      Canvas.Unlock;
 +
    end;
 +
  finally
 +
    Canvas.Free;
 
   end;
 
   end;
 
end;</delphi>
 
end;</delphi>

Revision as of 09:23, 16 September 2010

Introduction

VCL and LCL support basic docking of controls. For advanced docking behavior custom dock manager have to be created. Basic abstract dock manager class TDockManager is placed in Controls unit. All custom manager have to be deriver from this class. Basic LCL implementation of TDockManager is TDockTree which is capable of handling tree of dock zones.

Recommended reading: LCL Drag Dock

Possible docking features

  • Docking zone hierarchy
    • One item
    • Linear list
    • Tree
    • Table
    • Anchored layout
    • Another complex organization
  • Tabbed docking
  • Docking multiple forms to floating conjoined window
  • Themes
  • Persistence, Store/Restore docking layout
  • Tabbed docking with autoshow/autohide forms, pin button to switch autohide/visible
  • Custom header buttons
  • Building default layout directly from code, manual management
  • Supporting visual design-time components, docking customize form
  • Class for global docking operations

Dragging

Docking is basically special case of Drag & Drop action for forms and similar controls. Therefore basic events of controls are similar.

Dragging events: OnDragOver, OnDragDrop, OnStartDrag, OnEndDrag Docking events: OnDockOver, OnDockDrop, OnStartDock, OnEndDock, OnUnDock

Dragged object is represented by class TDragObject and this class is further extended to class TDragControlObject and for needs of docking next to TDragDockObject. Whole process of dragging is controlled by TDragManager similarly to TDockManager.

Docking subsystem

TControl support

<delphi>TControl = class

 ...
 procedure DragDrop(Source: TObject; X,Y: Integer); virtual;
 procedure Dock(NewDockSite: TWinControl; ARect: TRect); virtual;
 function ManualDock(NewDockSite: TWinControl;
   DropControl: TControl = nil; ControlSide: TAlign = alNone;
   KeepDockSiteSize: Boolean = true): Boolean; virtual;
 function ManualFloat(TheScreenRect: TRect;
   KeepDockSiteSize: Boolean = true): Boolean; virtual;
 property DockOrientation: TDockOrientation read FDockOrientation write FDockOrientation;
 property Floating: Boolean read GetFloating;
 property FloatingDockSiteClass: TWinControlClass read GetFloatingDockSiteClass 
   write FFloatingDockSiteClass;
 property HostDockSite: TWinControl read FHostDockSite write SetHostDockSite;
 property LRDockWidth: Integer read GetLRDockWidth write FLRDockWidth;
 property TBDockHeight: Integer read GetTBDockHeight write FTBDockHeight;
 property UndockHeight: Integer read GetUndockHeight write FUndockHeight; // Height used when undocked
 property UndockWidth: Integer read GetUndockWidth write FUndockWidth; // Width used when undocked
 ...

end;</delphi>

TWinControl support

<delphi>TWinControl = class(TControl)

 ...
 property DockClientCount: Integer read GetDockClientCount;
 property DockClients[Index: Integer]: TControl read GetDockClients;
 property DockManager: TDockManager read FDockManager write SetDockManager;
 property DockSite: Boolean read FDockSite write SetDockSite default False;
 property OnUnDock: TUnDockEvent read FOnUnDock write FOnUnDock;
 property UseDockManager: Boolean read FUseDockManager
   write SetUseDockManager default False;
 property VisibleDockClientCount: Integer read GetVisibleDockClientCount;
 procedure DockDrop(DragDockObject: TDragDockObject; X, Y: Integer); virtual;
 ...

end; </delphi>

Implementing basic custom DockManager

It is possible to derive our custom manager from default TDockTree. But for purpose of creating completely custom manager parent class have to be TDockManager. All methods from parent class should be overridden.

  • For basic demonstration dock manager should be able to manage one control. That class can be extended later.

Here is basic prototype based on TDockManager virtual methods.

<delphi>TCustomDockManager = class(TDockManager)

 constructor Create(ADockSite: TWinControl); override;
 procedure BeginUpdate; override;
 procedure EndUpdate; override;
 procedure GetControlBounds(Control: TControl;
   out AControlBounds: TRect); override;
 function GetDockEdge(ADockObject: TDragDockObject): boolean; override;
 procedure InsertControl(ADockObject: TDragDockObject); override; overload;
 procedure InsertControl(Control: TControl; InsertAt: TAlign;
   DropCtl: TControl); override; overload;
 procedure LoadFromStream(Stream: TStream); override;
 procedure PaintSite(DC: HDC); override;
 procedure MessageHandler(Sender: TControl; var Message: TLMessage); override;
 procedure PositionDockRect(ADockObject: TDragDockObject); override; overload;
 procedure PositionDockRect(Client, DropCtl: TControl; DropAlign: TAlign;
   var DockRect: TRect); override; overload;
 procedure RemoveControl(Control: TControl); override;
 procedure ResetBounds(Force: Boolean); override;
 procedure SaveToStream(Stream: TStream); override;
 procedure SetReplacingControl(Control: TControl); override;
 function AutoFreeByControl: Boolean; override;    

end;</delphi>

  • DockManager have to know to which TWinControl belong. So manager need field FDockSite of type TWinControl which is assigned by constructor.

<delphi>private

 FDockSite: TWinControl;</delphi>
  • Now we can implement method PositionDockRect which determine dock frame size according to size of DockSite.

<delphi>procedure TCustomDockManager.PositionDockRect(Client, DropCtl: TControl; DropAlign: TAlign;

 var DockRect: TRect); override; overload;

begin

 DockRect := Rect(0, 0, FDockSite.ClientWidth, FDockSite.ClientHeight);

end;</delphi>

  • To make dock manager default for all dockable controls insert initialization section to end of unit. Then simply inclusion of dock manager unit into main form unit will setup your docking system.

<delphi>initialization

 DefaultDockManagerClass := TCustomDockManager;</delphi>
  • It dock site is resized method ResetBounds is executed. Than we can use it to position docked control on dock site. We have to allocate some space on top of control for dock grabber.

<delphi>const

 GrabberSize = 18;

procedure TCustomDockManager.ResetBounds(Force: Boolean); var

 I: Integer;
 Control: TControl;
 R: TRect;

begin

 for I := 0 to FDockSite.ControlCount - 1 do
   begin
     Control := FDockSite.Controls[I];
     if Control.Visible and (Control.HostDockSite = FDockSite) then
     begin
       R := Control.BoundsRect;
       Control.SetBounds(0, GrabberSize, FDockSite.Width - Control.Left,
         FDockSite.Height - Control.Top);
     end;
   end;

end;</delphi>

  • Now we need to draw grabber with control Name on top of dock site.

<delphi>procedure TCustomDockManager.DrawGrabber(Canvas: TControlCanvas; AControl: TControl); begin

 with Canvas do begin
   Brush.Color := clBtnFace;
   Pen.Color := clBlack;
   FillRect(0, 0, AControl.Width, GrabberSize);
   Rectangle(1, 1, AControl.Width - 1, GrabberSize - 1);
   TextOut(6, 2, AControl.Caption);
 end;

end;</delphi>

For painting dock site canvas is responding method PaintSite so we need implement it. Only visible controls belonged to dock site should be painted.

<delphi>procedure TCustomDockManager.PaintSite(DC: HDC); var

 Canvas: TControlCanvas;
 Control: TControl;
 I: Integer;
 R: TRect;

begin

 Canvas := TControlCanvas.Create;
 try
   Canvas.Control := FDockSite;
   Canvas.Lock;
   try
     Canvas.Handle := DC;
     try
       for I := 0 to FDockSite.ControlCount - 1 do
       begin
         Control := FDockSite.Controls[I];
         if Control.Visible and (Control.HostDockSite = FDockSite) then
         begin
           R := Control.BoundsRect;
           Control.SetBounds(0, GrabberSize, FDockSite.Width - Control.Left,
             FDockSite.Height - Control.Top);
           Canvas.FillRect(R);
           DrawGrabber(Canvas, Control);
         end;
       end;
     finally
       Canvas.Handle := 0;
     end;
   finally
     Canvas.Unlock;
   end;
 finally
   Canvas.Free;
 end;

end;</delphi>


to be continued...

See also