About docking in general see Docking.
Docking allows you to combine forms, or to treat controls as forms. You use the mouse to drag and dock forms together or undock (split) them. The basic dragging, docking and undocking functionality is provided by the LCL. But you need a docking manager to add splitters and grab zones, and to save and restore layouts.
Anchor docking has been implemented since version 0.9.29 in the package anchordocking.lpk for use in your own Lazarus applications, and AnchorDockingDsgn.lpk if you wish to make the Lazarus IDE windows dockable. It is easy to use, and provides many features and options not available in earlier docking packages.
You will find a code example at: components/anchordocking/miniide/miniide1.lpi
This means that the earlier TLazDockingManager and unit LDockCtrl are obsolete and now deprecated.
- Drag and dock: Headers are added that can be dragged to dock controls with the mouse. Preview rectangles will show where and how a control is docked.
- Any layout: By using the LCL's anchors almost any layout is possible. You can dock to left, right, top, bottom, inside or outside or as page like in a TPageControl. You can enlarge docked controls via the popup menu. No need to undock your whole layout.
- What you see is how it is structured: There are no hidden panels to align controls in rows and columns. Anchor docking makes sure forms do not overlap.
- Splitters are automatically inserted between docked forms to allow resizing.
- Page docking. Forms can be docked not only left/right/above/below, but in pages too. A TPageControl is automatically created for native look and feel. A page can contain arbitrary docked forms too, including paged docked forms, allowing nested pages and layouts. When a page is undocked the pagecontrol is automatically removed. You can drag and drop the tabs or use the popup menu to move pages.
- Easy use: With one line of code you can make a form or control dockable. Just give them unique names.
- Not only forms, but any TWinControl can be made dockable.
- Can save/load layouts. The layout information is stored for each dockable control and old layout files will still work even when the application gets more dockable controls or some are removed. The information is stored in the abstract class LCL TConfigStorage. So you can use for example TXMLConfigStorage to store layouts in xml files or you can write your own storage to store it wherever you want.
- Each docked form is put into a docksite providing an optional header. The header shows the caption of the docked form and contains a close button. You can drag the header to drag the form and undock it or to dock it at another position. The header can be at any of the four sides and moves by default automatically to the smaller side to save space. You can customize this. The header shows a customizable hint allowing to read long captions.
- When a docksite is resized the child sites are automatically scaled. You can turn this off.
- Preserve size of forms. For instance when docking a form to a left side of a site the width of the docked form is kept. The same for the other sides and the same for undocking.
- Flickerless: The restore tries to reuse existing sites and splitters to reduce creation and flickering of forms and to preserve the Z order of forms. This allows to quickly switch between layouts.
- Header popup menu:
- lock/unlock (disable dragging)
- header position (auto, left, top, right, bottom), this is saved/restored with the layout
- merge (for example after moving a dock page into a layout)
- undock (needed if no place to undock on screen)
- enlarge side to left, top, right, bottom
- Page popup menu:
- lock/unlock (disable dragging)
- undock (needed if no place to undock on screen)
- tab position for pagecontrol (top,bottom, left, right), this is saved/restored with the layout
- move page to the left, right, leftmost, rightmost
- Forms can be made dock sites. Then they can dock at one side. But they can not be docked itself.
- close button automatically saves a layout
- Powerful functions to alter the layout. You can use D&D to move a form and you can undock and dock in one move. There are functions to enlarge forms and shrinking others. These functions are available via the header popup menu as well. See below.
- There is an IDE package which makes the Lazarus IDE dockable. It is called anchordockingdsgn.lpk. Make sure you only install one docking package. Do not install the easydockmgr at the same time!
- Design time package: Add all layout files to menu
- simple way to make forms dockable at designtime (that means without writing any code)
- minimize button and Hide
- on show again: restore a default layout
- close button for pages
- Implement automatic menu merging in the LCL (when two forms with main menus are docked).
Usage I. (In your own applications)
Add the package AnchorDocking to the required packages in the project inspector.
Then add the unit AnchorDocking to the uses section of your main unit (the unit with your main form).
Add to the FormCreate of your main form:
For the other dockable forms replace all calls of Show and ShowOnTop with
For the other dockable forms replace all calls of Visible:=true with
Remove or comment all Hide, Visible:=false, WindowState:= calls.
- Your project must use the package AnchorDocking.
- All dockable forms must be shown with MakeDockable or MakeDockSite. Do not use Show, BringToFront, ShowOnTop, Visible:=true. Of course you can have some non dockable forms, like hints or splashscreens.
- All dockable forms must be free resizable, that means no constraints, no BorderStyle bsDialog.
- No other docking system. AnchorDocking is incompatible with EasyDockMgr.
Making forms dockable
There are two ways to make a form dockable. You can use DockMaster.MakeDockable to wrap a form into a dock site. Then your form can dock and be docked completely free. You will use that for the biggest part of your forms, except for the MainForm, because this is only supported for the MainForm on gtk2 and qt. The second way is to use DockMaster.MakeDockSite. The form can dock other sites, but can not be docked itself. You might want to use MakeDockSite for the MainForm. For most other forms you probably want to use this:
// shows YourForm // if not already done, wrap the form into a dock site DockMaster.MakeDockable(YourForm);
Here are some examples how a form looks like that was made dockable with DockMaster.MakeDockable:
The header position is normally done automatically and the user can with a right click put it to any of the four sides.
The example can be found in lazarus/components/anchordocking/miniide/miniide1.lpi. It has a mainform in unit unit1.pas with a main menu which works as a docksite and several forms that are dockable.
Making the main form a dock site
In the TMainIDE.FormCreate the main form MainIDE is turned into a docksite:
The parameter [akBottom] allows to dock other sites at the bottom of MainIDE. The parameter admrpChild tells the DockMaster that when the MainIDE is enlarged the extra space is distributed to the docked sites.
When the user docks a site to the bottom of MainIDE the site is put onto MainIDE (Site.Parent:=MainIDE) with Site.Align=alBottom. The other controls on MainIDE must be compatible to this. MainIDE for example has a BtnPanel with Align=alLeft and a TNoteBook with Align=alClient. See here how Align works.
The DockMaster adds automatically a splitter:
As soon as a dockable form is docked its caption is shown in the dock header.
Requirements for a custom dock site
As long as nothing is docked into a custom dock site, your form can do everything as a normal form. But when a site is docked to it, some properties and methods need special care:
- AutoSize=true may result in an endless loop. Disable it or override DoAutoSize/CalculatePreferredSize and take special care.
- Constraints: The DockMaster clears the maximum Constraints and will restore them on undock.
- Child controls anchored to the aligned site may overlap. See here how Align works.
- ChildSizing: The spacing properties like LeftRightSpacing, TopBottomSpacing may interfere with the docking layout.
Procedure to create all other forms by name
The MainIDE sets the DockMaster.OnCreateControl event, to enable the DockMaster to create forms by name. This is needed to restore layouts.
procedure TMainIDE.DockMasterCreateControl(Sender: TObject; aName: string; var AControl: TControl; DoDisableAutoSizing: boolean); procedure CreateForm(Caption: string; NewBounds: TRect); begin AControl:=CreateSimpleForm(aName,Caption,NewBounds,DoDisableAutoSizing); end; begin // first check if the form already exists // the LCL Screen has a list of all existing forms. // Note: Remember that the LCL allows as form names only standard // pascal identifiers and compares them case insensitive AControl:=Screen.FindForm(aName); if AControl<>nil then begin // if it already exists, just disable autosizing if requested if DoDisableAutoSizing then AControl.DisableAutoSizing; exit; end; // if the form does not yet exist, create it if aName='CodeExplorer' then CreateForm('Code Explorer',Bounds(700,230,100,250)) ... else if aName='DebugOutput' then CreateForm('Debug Output',Bounds(400,400,350,150)); end;
Creating a form can be as simple as this:
MyForm:=TMyForm.Create(Self); if DoDisableAutoSizing then MyForm.DisableAutoSizing;
But of course you can put there all kind of initialization code.
The DisableAutoSizing reduces flickering. Make sure your forms Visible property is set to false.
Remember to call DisableAutoSizing for the form if the parameter DoDisableAutoSizing is set to true, because Disable- and EnableAutosizing calls must be balanced. If you miss the DisableAutosizing, the LCL will raise an exception later:
TControl.EnableAutoSizing SourceEditor1:TSimpleForm: missing DisableAutoSizing
If you call DisableAutoSizing too much, your forms will not appear and/or not resize properly as the LCL is waiting for the EnableAutoSizing call that never comes.
When a form should be shown, you have probably used something like 'MyForm.Show. Instead you should now use
This will wrap MyForm in a dock site and show it. It is clever enough to figure out if the form is already wrapped in a dock site.
If you set the DockMaster.OnCreateControl event you can use this:
Docking manually, via code
Use the procedure DockMaster.ManualDock to dock a site to or into another.
procedure ManualDock(SrcSite, TargetSite: TAnchorDockHostSite; Align: TAlign; TargetControl: TControl = nil);
- SrcSite is the site to be docked. If SrcSite was docked it will be undocked first.
- TargetSite is the site where SrcSite will be docked into or docked as neighbor.
- TargetControl specifies if docking as neighbor (=nil), as inside neighbor (=TargetSide) or in front of a page (=a TAnchorDockPage).
Undocking manually, via code
Use the procedure DockMaster.ManualFloat to undock a site from its neighbors and create a flotaing top level form. The embedded control stays embedded into a TAnchorDockHostSite.
procedure ManualFloat(AControl: TControl);
You can give as parameter a TAnchorDockHostSite or a control embedded into a TAnchorDockHostSite (for example a form made dockable with MakeDockable). The site will be put at the same screen location.
The DockMaster allows to save the current layout to a TConfigStorage. The miniide example uses the xml version:
procedure TMainIDE.SaveLayout(Filename: string); var XMLConfig: TXMLConfigStorage; begin try // create a new xml config file XMLConfig:=TXMLConfigStorage.Create(Filename,false); try // save the current layout of all forms DockMaster.SaveLayoutToConfig(XMLConfig); XMLConfig.WriteToDisk; finally XMLConfig.Free; end; except on E: Exception do begin MessageDlg('Error', 'Error saving layout to file '+Filename+':'#13+E.Message,mtError, [mbCancel],0); end; end; end;
procedure TMainIDE.LoadLayout(Filename: string); var XMLConfig: TXMLConfigStorage; begin try // load the xml config file XMLConfig:=TXMLConfigStorage.Create(Filename,True); try // restore the layout // this will close unneeded forms and call OnCreateControl for all needed DockMaster.LoadLayoutFromConfig(XMLConfig); finally XMLConfig.Free; end; except on E: Exception do begin MessageDlg('Error', 'Error loading layout from file '+Filename+':'#13+E.Message,mtError, [mbCancel],0); end; end; end;
The anchor docking manager can enlarge/shrink docked neighbors. This is done via the popup menu of the dock header or in code with the function DockMaster.ManualEnlarge:
function ManualEnlarge(Site: TAnchorDockHostSite; Side: TAnchorKind; OnlyCheckIfPossible: boolean): boolean;
Site is a child site, Side the side of Site to expand. If you only want to test if enlarge is possible set OnlyCheckIfPossible to true.
Enlarge one, shrink another
Shrink neighbor Object Inspector, enlarge Messages: Right click on the header of Messages and click on Enlarge right side. Two splitters are resized.
Enlarge one, shrink many
Shrink splitter at one side, enlarge both neighbor splitters, rotate the splitter behind, enlarge Control, shrink controls at rotate splitter. Right click on header of Source Editor 1 then click on Enlarge bottom side.
General docking options
The AnchorDocking package provides a dialog to setup some of the properties of the DockMaster. The dialog is in the unit AnchorDockOptionsDlg and you can use it simply:
uses ... AnchorDockOptionsDlg; ... procedure TMainIDE.FormCreate(Sender: TObject); ... begin ... DockMaster.OnShowOptions:=@ShowAnchorDockOptions; ... end;
This will add a new menu item to the popup menus of the dock headers and pages called Docking options.
Usage II. (Docking in the Lazarus IDE)
If you don't like the default "separate windows" look of the Lazarus IDE and prefer a single window (e.g., like RAD Studio™), you can install a package called AnchorDockingDsgn. This package makes the windows dockable (lazarus/components/anchordocking/design/anchordockingdsgn.lpk). Uninstall any other docking managers (e.g., easydockmgrdsgn).
After you installed the package and restarted the IDE, the IDE starts with a default docked layout. You can change the layout by enabling the header showing feature (right click on e.g. "Messages" tab -> "Show headers") and then drag and dock the headers (the bars at the top or left of each window), resize via splitters or window borders. You can right-click on the headers too for other options, for example, to change the look of the headers, as shown farther down below:
You can save the layout via the menu item Tools / Save window layout as default. This saves to ~/.lazarus/anchordocklayout.xml and restores it when the IDE starts up.
You can also save the layout to a file and load them later.
Since Lazarus 1.1 you can pass a command line parameter
The look (like the headers) can be further tweaked by right-clicking on them.
Scale on resize
When resizing a window, all docked forms inside are scaled same percentage.
To dock/undock a window, you need to enable this option.
No 3d frame in headers.
Header align top/left
Headers are automatically put at top or left depending on these two values:
- Move header to top, when (width/height)*100<=HeaderAlignTop, default 80
- Move header to left, when (width/height)*100>=HeaderAlignLeft, default 120
- Otherwise keep the header at the current position.
Which means the header is by default put at the smaller side of a docked control. When the control is resized, the header switches to the smaller side.
Allow dock sites to be minimized
A extra minimize button is added, so a site can be minimized. Then sites next to it get more space. If needed, the minimized site then can easy be opened.
Feature added in Lazarus 2.2. If a OS support multiline tabs (like Windows), if there are no many tabs, they are shown in multiple lines.
Floating windows on top
Feature added in Lazarus 2.2. If there are undocked windows shown, show these on top of main window. In a own application, there can be set DockMaster.MainDockForm, then all floating windows are shown on top of it. If MainDockForm is not set, Application.MainForm is used.
Why use Anchors instead of Align?
Anchors allow to create any possible rectangular layout. Align is limited. Align with Panels can theoretically create a lot of layouts, but still not all. And some operations like enlarge/shrink are more complicated using Align/Panels than using Anchors. Align works good for a few forms, but the more forms are docked, the more the disadvantages of Align become visible.
Layouts that can be created with Align
Align can only create the following layouts:
The alTop controls are always at the top, filling the whole horizontal width. That's because the LCL first aligns all controls with alTop, then all alBottom, then alLeft, then alRight and finally alClient.
Layouts that can be created with Align and Panels
It is possible to nest Align layouts by using hidden panels. Then any layout that can be recursively splitted in halves can be created. Then you can create for example:
This requires only one hidden panel.
Now the user wants to enlarge the FPDocEditor horizontally (and shrink CodeExplorer). With the AnchorDocking you can simply right click on the FPDocEditor header and click Enlarge right side.
Other docking engines need at least 2 panels. One for SrcEditor,Messages,FPDocEdit,CodeExpl and one for SrcEdit and Messages. Most docking layouters do not even provide a simple way to change the layout in this way. An algorithm to allow this layout change, must analyze the whole structure as if there were no panels and must reparent a lot of things. Basically the algorithm must do the same as the anchor docking algorithm, but with the extra work of translating the layout into Align plus hidden panels.
Layouts that are impossible with Align and Panels
Now the user wants to enlarge SourceEditor1 horizontally (and shrink ObjectInspector):
This layout is impossible with Align and panels, because you can not cut it in two halves. The same with
Align with hidden panels allows you to easily create a simple docking manager that works well for a few forms, but it will always limit the user. Align is useful for row and column layouts, not for tables. Anchor docking works even for complex forms.
Old/deprecated anchor docking
Create a TLazDockingManager
The Self as parameter is only used as Owner. That means, when the mainform is freed, the DockingManager is freed too. You can use nil and free the DockingManager yourself.
Optional: Loading a configuration
You can load the user configuration from disk.
Config:=TXMLConfigStorage.Create('config.xml',true); DockingManager.LoadFromConfig(Config); Config.Free;
This loads the file config.xml. The config can be created by the SaveToConfig function. See below.
Make a form/control dockable
Create a TLazControlDocker for each form/control that should be dockable
ControlDocker1:=TLazControlDocker.Create(Self); ControlDocker1.Name:='DockerForm1'; ControlDocker1.Manager:=DockingManager;
Optional: Saving the user configuration to disk
When the program is closed you can save the user configuration to disk
Config:=TXMLConfigStorage.Create('config.xml',true); DockingManager.SaveToConfig(Config); Config.WriteToDisk; Config.Free;