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Difference between revisions of "AmiDock and Dockies"
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= Introduction = |
= Introduction = |
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+ | AmiDock is a tool to maintain a graphical menu bars (Docks) at the Workbench screen that can be used or to execute other programs from a selection of icons (either in the main Dock or in sub-Docks as specified by the AmiDock preferences), or to handle special kind of application called "Dockies", which can provide different functionality: render different kind of data right into the dock, provide user with a menu related to the Docky of choice and so on. |
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− | = What is AmiDock = |
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+ | AmiDock implemented as commodity, and together with being responsible for creating and controlling Docks and Dockies it provide different functionality such as ARexx support and a rich API by which your Dockies can control most of AmiDock's features. |
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− | = What is Dock and Dockie = |
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+ | |||
+ | = What is a Dock and a Docky? = |
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== Dock == |
== Dock == |
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− | A Dock is an area/a window (currently provided by the "AmiDock" commodity) where the user can put some icons and other stuff. Some may call it "Panels". |
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+ | A Dock is an area or window where the user can put a program icon or an interactive program. |
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− | == Dockie == |
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+ | [[File:Laucher_dock.png|center]] |
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− | A Dockie cat be of 3 types: |
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+ | == Docky == |
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− | 1. "Standalone Dockies": is a special type of program which is made to show an icon in a Dock, delivering some functionality to the user. |
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− | 2. "Standard AppDockIcon Dockies" which is a modern incarnation of AppIcon of some kind. |
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− | 3. "Tray-bar AppDockIcon Dockies" which is special case of AppDockIcon Dockies, just done in mind to be in "tray". |
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+ | A Docky is a little program to be placed in a dock. Dockies are able to control most of AmiDock's features and provides a great way to expand AmiDock beyond its default functionality. Dockies may be invisible to the user or show static or dynamic (animated) content. You may change their behavior, size and look according to requirements. Dockies are one of two main types: |
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− | To sum up in "standalone dockies" the docky itself is the application (the only reason of existence of the application is the docky) while for "AppDockIcon dockies" the docky is just a graphical representation of a bigger application (the docky is just here to add user friendliness or visual feedback of the surrounding application) |
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+ | === Standalone Dockies === |
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− | = AmiDock's API = |
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+ | A standalone Docky is a special type of program which is made to show an icon in a Dock, delivering some functionality to the user. It is the most common type of Docky. This Docky type uses the standard shared library feature of AmigaOS as a common interface. |
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− | = Different types of Dockies = |
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− | == Standalone Dockies == |
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− | == |
+ | === Application Dockies === |
− | === Standard AppDockIcon Dockies === |
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− | === Tray-bar AppDockIcon Dockies === |
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+ | The second type of Docky is an application Docky which may sometimes be known as an 'AppDocky' or 'AppDockIcon Docky'. An AppDocky is a Docky which is introduced to the system at run time by an application using the application.library registration mechanism for applications. The biggest difference between the two types of Dockies types is that AppDockies belong to a running application and usually are used to represent the current state of the owning application. |
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− | - This part is under development, and even no standard is done. All of this subject to change and just a first attempts - |
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+ | To sum up in "standalone dockies" the docky itself is the application (the only reason of existence of the application is the docky) while for "AppDockIcon dockies" the docky is just a graphical representation of a bigger application (the docky is just here to add user friendliness or visual feedback of the surrounding application) |
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− | [[File:Tray_doc.jpg|center]] |
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+ | = How to create and manipulate a simple docky = |
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− | If you as developer want to make a tray-bar kind dockie, then you should follow some rules: |
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− | |||
− | 1. You always should provide a 24x24 icon (which can be as standard size of the tray-bar icons). You should do so to avoid auto-scaling of tray-kind doc and make it look as intended. |
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+ | You write a docky just like you'd write a standard Exec library. In your code you must implement certain specifically-named functions like DockyGet(), DockyProcess(), DockySet() etc. The docky manager (AmiDock) calls these functions when it needs to. |
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− | 2. |
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+ | See the [http://os4depot.net/share/utility/docky/datetime_docky.lha datetime.docky source code] to get started. |
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− | 3. |
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− | |||
− | = How to make a good Dockie = |
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= FAQ = |
= FAQ = |
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+ | == Is it possible to create an application docky and then update its content on the fly and how? == |
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− | = Final Words = |
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− | |||
− | = Links = |
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− | |||
− | 1. Sys:Documentation/Commodities/AmiDock_Arexx.doc |
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− | |||
− | = Misc = |
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− | |||
− | |||
− | |||
− | ******************************************* |
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− | ***** Welcome to AmiDock ***** |
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− | ***** for AmigaOS 4 ***** |
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− | ******************************************* |
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− | |||
− | This Archive contains a beta version of AmiDock. |
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− | Please refer to the amidock_relnotes for more information |
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− | about the internal changes. |
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− | |||
− | --- |
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− | |||
− | The usage of AmiDock should be self-explanory. |
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− | Some important things: |
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− | |||
− | - The "Dockies"-drawer should be located in "Sys:Tools/" |
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− | |||
− | - If the Minimizeable-Checkbox is checked, you can minimize a dock |
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− | by double-clicking it's drag-bar. |
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− | |||
− | - Bring to front/send to back can be done by double clicking on an |
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− | empty area in a dock (SHIFT together with a dobule click will send |
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− | it to back). |
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− | |||
− | - (in a selected dock) shift+click+hold on a icon and move around to |
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− | interactively change the icon-position |
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− | |||
− | - to interactively delete a icon or a whole dock: click+hold the object, |
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− | press the Backspace or Delete key |
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− | |||
− | |||
− | Docky-Descriptions: |
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− | |||
− | |||
− | ************* Access.docky **************************************************** |
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− | |||
− | - Single click with the left mouse button on this docky to open a list of |
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− | screens and windows. Select a window and it will be activated and |
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− | come to front (optionally) |
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− | |||
− | - This docky especially is cool when using a hotkey - this way you can use |
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− | the popup on EVERY screen. Just specify the hotkey like you do it with |
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− | normal icons, too. |
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− | |||
− | - Use the context menu to toggle to-front mode |
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− | |||
− | ************* Anim.docky ****************************************************** |
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− | |||
− | - On a empty Anim.docky (no Animation assigned yet), drop a GIF-Animation |
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− | (e.g. Boing#?.gif) on this docky to change the current animation |
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− | |||
− | - (in a selected dock) point with the mouse pointer over the docky |
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− | and press the "+"/"-"-Keys to change animation speed |
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− | |||
− | - Use the context menu to specify a tool which shall be combined with this |
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− | docky. You can also change the used animation here. |
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− | |||
− | ************* Button.docky **************************************************** |
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− | |||
− | - On a empty Button.docky (no Picture assigned yet), drop a picture |
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− | on this docky to change the current image |
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− | |||
− | - Use the context menu to specify a tool which shall be combined with this |
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− | docky. You can also change the used picture here. |
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− | |||
− | ************* Clock.docky ***************************************************** |
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− | |||
− | A analog clock in the dock. This docky changes automatically to a digital |
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− | clock if you change to name or button style docks. |
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− | |||
− | - Double click the docky or use the context menu to open the system time |
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− | preferences. |
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− | |||
− | ************* Debugger.docky ************************************************** |
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− | |||
− | This docky opens a window and shows debugging information for docky- |
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− | programmers. Needed only for people developing third-party dockies. |
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− | Single-click it to enable/disable debug mode. Debugger.docky saves its state |
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− | in its preferences. |
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− | Use the context menu to toggle between single-dock and global (all docks) |
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− | debugging. |
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− | |||
− | ************* Lens.docky ****************************************************** |
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− | |||
− | - Double click this docky to switch between normal or maximized view |
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− | Note: Normal and maximized view do have their own settings. |
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+ | Set the icon type to APPICONT_Docky; but you'll need to create a real docky as well then. If it doesn't need to be truly active it is possible just to change the icon's imagery (I think you have to un-register/re-register to get it to change though, so no good for frequent changes) |
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− | - (in a selected dock) point with the mouse pointer over the docky |
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− | and press the key "x" - this will toggle between "cross-hair" mode and |
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− | non-cross-hair mode |
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+ | == I have successfully drawn a datatype (a picture) in a Docky and the picture file has more than 256 colors but it is rendered in 256 colors only. Why? == |
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− | - (in a selected dock) point with the mouse pointer over the docky |
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− | and press the "+"/"-"-Keys to change the used magnifcation |
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+ | Just add PDTA_DestMode, PMODE_V43 to the NewDTObject call. You might also want to add DTA_GroupID, GID_PICTURE in order to restrict the file type to pictures. |
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− | - (in a selected dock) point with the mouse pointer over the docky |
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− | and press the key "c" to enable coordinates |
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+ | == How are context menus created? == |
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− | - (in a selected dock) point with the mouse pointer over the docky |
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− | and press the key "v" to enable RGB values output |
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− | (only available in a maximized lens!!) |
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+ | Context menus are dynamically built in response to DOCKYGET_ContextMenu attribute: |
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− | - (in a selected dock) point with the mouse pointer over the docky |
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− | and press the key "g" to enable/disable the grid |
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+ | <syntaxhighlight> |
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− | You can also use the context menu to change all the above described settings. |
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+ | BOOL DockyGet (struct DockyIFace *Self, uint32 msgType, uint32 *msgData) |
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+ | { |
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+ | switch (msgType) |
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+ | { |
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+ | /* ... */ |
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+ | case DOCKYGET_ContextMenu: |
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− | ************* Minimizer.docky ************************************************* |
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+ | { |
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+ | Object *contextMenu = (Object *)msgData; |
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+ | Object *item1 = PopupMenuItemObject, |
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− | As soon as this docky was added to a dock (to make the docky "invisible" |
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+ | PMIA_Title, GetString(&li, LOCALE_ITEM_PREFS), |
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− | use another category for placing the docky), the dock will shrink to the |
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+ | PMIA_ID, PMID_PREFS, |
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− | minimized state after some time. |
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+ | PopupMenuItemEnd; |
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− | As soon as the pointer is placed over the drag-bar, it expands to normal size. |
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− | You can change the delay time until this docky minimizes the dock using the |
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− | contextual menu. |
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+ | Object *item2 = PopupMenuItemObject, |
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− | ************* Online.docky **************************************************** |
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+ | PMIA_Title, GetString(&li, LOCALE_ITEM_SAVEASDEFAULT), |
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+ | PMIA_ID, PMID_SAVEASDEFAULT, |
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+ | PopupMenuItemEnd; |
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+ | Object *item3 = PopupMenuItemObject, |
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− | Allows you to go on- and offline with RoadShow. Not fully implemented yet!!! |
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+ | PMIA_Title, GetString(&li, LOCALE_ITEM_USEASDEFAULT), |
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+ | PMIA_ID, PMID_USEASDEFAULT, |
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+ | PopupMenuItemEnd; |
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+ | if (item1 && item2 && item3) |
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− | ************* Rainbow.docky *************************************************** |
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+ | { |
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+ | IIntuition->IDoMethod(contextMenu, OM_ADDMEMBER, item1); |
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+ | IIntuition->IDoMethod(contextMenu, OM_ADDMEMBER, item2); |
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+ | IIntuition->IDoMethod(contextMenu, OM_ADDMEMBER, item3); |
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+ | } |
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+ | } |
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− | This docky shows a colorful rainbow with alpha channel (!) - but nothing more. |
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+ | break; |
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− | Double click it to toggle between icon and image view. |
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+ | /* ... */ |
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− | This dock needs screen depth >8Bit. AmiDock will deny it on screen depths |
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+ | } |
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− | below 8Bit. |
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+ | </syntaxhighlight> |
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+ | == How do you use an alpha layer for a Docky? == |
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− | ************* Seperator.docky ************************************************* |
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+ | On non-composited screens, AmiDock uses a "fake" transparency effect (i.e. the bitmap is filled with the contents of the window behind the dock), meaning that you can only add things over the background but you cannot render half or totally transparent contents without doing the blending at the same time (or you'll lose background information). |
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− | This docky is nothing more than just a seperator line. It automatically |
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− | adjusts itself to the size and orientation of a dock. |
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+ | So if you want to support this configuration you need to follow this rule or provide an alternate rendering if you want to do fancy stuff when compositing is enabled. |
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− | ************* SubDocks.docky ************************************************** |
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+ | Now, what you are trying to do should work on composited screens, but you have to tell AmiDock that you are using composited mode (see DOCKYGET_SupportsComposite and DOCKYGET_CompositeMode) so that it does not try to de-multiply the docky bitmap. Also I'm not sure you can use legacy pens to fill alpha channel, you're better off with direct ARGB painting (see SetRPAttrs() with RPTAG_APenColor). |
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− | - Use the shortcut Amiga+U to place it in the current dock or throw it in the |
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− | dock which shall contain it... |
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+ | == Is there a way to trigger a redraw from outside the docky? == |
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− | - drag&drop a icon on it to configure its icon in AmiDock |
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+ | Use DOCKYGET_NeedsAttention for this. This is how a docky can be notified from an external task by signaling AmiDock process. Quite straightforward, this is how e.g. [http://os4depot.net/share/utility/docky/winbar-docky.lha winbar.docky] ([http://os4depot.net/share/utility/docky/winbar_docky_src.zip source code is here], prefsobjects_macro.h include file which is required [http://openamiga.org/attachment/project/29/prefsobjects_macros.h here]) is told to rethink its layout in response to a change in preferences, or Intuition windows list. A shared structure and [[Exec_Mutexes|Mutex]] to protect the data. By the way, winbar.docky source code can be helpful not only for that, but for all other things such as adding context menus, firing requests to AmiDock or other of the many still undocumented features of the API. |
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− | - if you delete the subdock, the docky will remove itself automatically |
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+ | You are notified about the task/bit to signal through DOCKYSET_DockyAttention (you would store it in the library base for an easy access by the main program). When your program signals AmiDock, every docky is sent the DOCKYGET_NeedsAttention message, so it is a good idea to use a flag to know if the notification really comes from your program. |
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− | - if you delete the docky, the docky will remove the subdock itself |
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− | automatically |
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+ | == How does DOCKYGET_SupportsComposite work? == |
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− | - (in a selected dock) point with the mouse pointer over the docky |
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− | and press the key "p" to toggle between popupmode (default, closes the dock |
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− | after a object was clicked) or normal mode (doesn't close the dock) |
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+ | When compositing is enabled, a docky receives a DOCKYGET_SupportsComposite query. If it returns TRUE, it will then receive a DOCKYGET_CompositeMode query to which it can reply either DOCKYCOMPMODE_PreblendedRGB (0) or DOCKYCOMPMODE_RawRGB (1). The former has no advantages over the previous method, but was included for backward compatibility. The latter, however, allows you to directly *copy* the source ARGB data to the destination bitmap (or buffer) rather than blend it yourself. This way, it will be AmiDock itself that does the blending (once) without the need to undo the |
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− | - Use the context menu to toggle the popup mode and ti change the icon. |
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+ | previous blending to get the raw RGB data. |
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+ | One thing to take into account when using this method, though, is that on a 16-bit screen you will get an actual 16-bit destination bitmap, not 32-bit as it happens when returning FALSE to DOCKYGET_SupportsComposite. In this case, you will need to write the alpha channel separately to the |
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− | ************* Test.docky ****************************************************** |
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+ | (8-bit) bitmap provided in the DockyRenderDestination's alpha.RP field. |
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+ | = See Also = |
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− | The first docky ever written. Just a fun-docky. |
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− | This docky "listens" to all possible events and shows this by flashing in some |
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− | color when a action is detected. |
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+ | 1. SDK:Documentation/AutoDocs/docky.doc |
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− | - Move your mouse over the docky and click it... |
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+ | 2. SYS:Documentation/Commodities/AmiDock_Arexx.doc |
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− | - Drag&Drop several files on the docky and watch what happens... |
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+ | 3. SDK:Examples/AmiDock/ |
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− | This dock needs screen depth >8Bit. AmiDock will deny it on screen depths |
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− | below 8Bit. |
Latest revision as of 10:27, 1 May 2014
Contents
- 1 Introduction
- 2 What is a Dock and a Docky?
- 3 How to create and manipulate a simple docky
- 4 FAQ
- 4.1 Is it possible to create an application docky and then update its content on the fly and how?
- 4.2 I have successfully drawn a datatype (a picture) in a Docky and the picture file has more than 256 colors but it is rendered in 256 colors only. Why?
- 4.3 How are context menus created?
- 4.4 How do you use an alpha layer for a Docky?
- 4.5 Is there a way to trigger a redraw from outside the docky?
- 4.6 How does DOCKYGET_SupportsComposite work?
- 5 See Also
Introduction
AmiDock is a tool to maintain a graphical menu bars (Docks) at the Workbench screen that can be used or to execute other programs from a selection of icons (either in the main Dock or in sub-Docks as specified by the AmiDock preferences), or to handle special kind of application called "Dockies", which can provide different functionality: render different kind of data right into the dock, provide user with a menu related to the Docky of choice and so on.
AmiDock implemented as commodity, and together with being responsible for creating and controlling Docks and Dockies it provide different functionality such as ARexx support and a rich API by which your Dockies can control most of AmiDock's features.
What is a Dock and a Docky?
Dock
A Dock is an area or window where the user can put a program icon or an interactive program.
Docky
A Docky is a little program to be placed in a dock. Dockies are able to control most of AmiDock's features and provides a great way to expand AmiDock beyond its default functionality. Dockies may be invisible to the user or show static or dynamic (animated) content. You may change their behavior, size and look according to requirements. Dockies are one of two main types:
Standalone Dockies
A standalone Docky is a special type of program which is made to show an icon in a Dock, delivering some functionality to the user. It is the most common type of Docky. This Docky type uses the standard shared library feature of AmigaOS as a common interface.
Application Dockies
The second type of Docky is an application Docky which may sometimes be known as an 'AppDocky' or 'AppDockIcon Docky'. An AppDocky is a Docky which is introduced to the system at run time by an application using the application.library registration mechanism for applications. The biggest difference between the two types of Dockies types is that AppDockies belong to a running application and usually are used to represent the current state of the owning application.
To sum up in "standalone dockies" the docky itself is the application (the only reason of existence of the application is the docky) while for "AppDockIcon dockies" the docky is just a graphical representation of a bigger application (the docky is just here to add user friendliness or visual feedback of the surrounding application)
How to create and manipulate a simple docky
You write a docky just like you'd write a standard Exec library. In your code you must implement certain specifically-named functions like DockyGet(), DockyProcess(), DockySet() etc. The docky manager (AmiDock) calls these functions when it needs to.
See the datetime.docky source code to get started.
FAQ
Is it possible to create an application docky and then update its content on the fly and how?
Set the icon type to APPICONT_Docky; but you'll need to create a real docky as well then. If it doesn't need to be truly active it is possible just to change the icon's imagery (I think you have to un-register/re-register to get it to change though, so no good for frequent changes)
I have successfully drawn a datatype (a picture) in a Docky and the picture file has more than 256 colors but it is rendered in 256 colors only. Why?
Just add PDTA_DestMode, PMODE_V43 to the NewDTObject call. You might also want to add DTA_GroupID, GID_PICTURE in order to restrict the file type to pictures.
Context menus are dynamically built in response to DOCKYGET_ContextMenu attribute:
BOOL DockyGet (struct DockyIFace *Self, uint32 msgType, uint32 *msgData) { switch (msgType) { /* ... */ case DOCKYGET_ContextMenu: { Object *contextMenu = (Object *)msgData; Object *item1 = PopupMenuItemObject, PMIA_Title, GetString(&li, LOCALE_ITEM_PREFS), PMIA_ID, PMID_PREFS, PopupMenuItemEnd; Object *item2 = PopupMenuItemObject, PMIA_Title, GetString(&li, LOCALE_ITEM_SAVEASDEFAULT), PMIA_ID, PMID_SAVEASDEFAULT, PopupMenuItemEnd; Object *item3 = PopupMenuItemObject, PMIA_Title, GetString(&li, LOCALE_ITEM_USEASDEFAULT), PMIA_ID, PMID_USEASDEFAULT, PopupMenuItemEnd; if (item1 && item2 && item3) { IIntuition->IDoMethod(contextMenu, OM_ADDMEMBER, item1); IIntuition->IDoMethod(contextMenu, OM_ADDMEMBER, item2); IIntuition->IDoMethod(contextMenu, OM_ADDMEMBER, item3); } } break; /* ... */ }
How do you use an alpha layer for a Docky?
On non-composited screens, AmiDock uses a "fake" transparency effect (i.e. the bitmap is filled with the contents of the window behind the dock), meaning that you can only add things over the background but you cannot render half or totally transparent contents without doing the blending at the same time (or you'll lose background information).
So if you want to support this configuration you need to follow this rule or provide an alternate rendering if you want to do fancy stuff when compositing is enabled.
Now, what you are trying to do should work on composited screens, but you have to tell AmiDock that you are using composited mode (see DOCKYGET_SupportsComposite and DOCKYGET_CompositeMode) so that it does not try to de-multiply the docky bitmap. Also I'm not sure you can use legacy pens to fill alpha channel, you're better off with direct ARGB painting (see SetRPAttrs() with RPTAG_APenColor).
Is there a way to trigger a redraw from outside the docky?
Use DOCKYGET_NeedsAttention for this. This is how a docky can be notified from an external task by signaling AmiDock process. Quite straightforward, this is how e.g. winbar.docky (source code is here, prefsobjects_macro.h include file which is required here) is told to rethink its layout in response to a change in preferences, or Intuition windows list. A shared structure and Mutex to protect the data. By the way, winbar.docky source code can be helpful not only for that, but for all other things such as adding context menus, firing requests to AmiDock or other of the many still undocumented features of the API.
You are notified about the task/bit to signal through DOCKYSET_DockyAttention (you would store it in the library base for an easy access by the main program). When your program signals AmiDock, every docky is sent the DOCKYGET_NeedsAttention message, so it is a good idea to use a flag to know if the notification really comes from your program.
How does DOCKYGET_SupportsComposite work?
When compositing is enabled, a docky receives a DOCKYGET_SupportsComposite query. If it returns TRUE, it will then receive a DOCKYGET_CompositeMode query to which it can reply either DOCKYCOMPMODE_PreblendedRGB (0) or DOCKYCOMPMODE_RawRGB (1). The former has no advantages over the previous method, but was included for backward compatibility. The latter, however, allows you to directly *copy* the source ARGB data to the destination bitmap (or buffer) rather than blend it yourself. This way, it will be AmiDock itself that does the blending (once) without the need to undo the previous blending to get the raw RGB data.
One thing to take into account when using this method, though, is that on a 16-bit screen you will get an actual 16-bit destination bitmap, not 32-bit as it happens when returning FALSE to DOCKYGET_SupportsComposite. In this case, you will need to write the alpha channel separately to the (8-bit) bitmap provided in the DockyRenderDestination's alpha.RP field.
See Also
1. SDK:Documentation/AutoDocs/docky.doc
2. SYS:Documentation/Commodities/AmiDock_Arexx.doc
3. SDK:Examples/AmiDock/