GUI Tutorial: Difference between revisions
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{{TOC|side}} | {{TOC|side}} | ||
This page will teach you how to create your | This page will teach you how to create your very own User Interface for Arma.<br> | ||
The second part of this page will dive deeper into the possibilities for creating User Interfaces for Arma 3. | |||
Line 8: | Line 9: | ||
=== Terminology === | === Terminology === | ||
Before we begin let us | Before we begin, let us define a few words: | ||
{| class="wikitable" | {| class="wikitable" | ||
|- | |- | ||
Line 15: | Line 16: | ||
|- | |- | ||
| UI | | UI | ||
| '''U'''ser '''I'''nterface. | | '''U'''ser '''I'''nterface. This is a general term that describes anything on a screen that can interface with the user. | ||
|- | |||
| GUI | |||
| '''G'''raphical '''U'''ser '''I'''nterface. a more specific version of UI. It refers to a user interface that has a graphical appearance. | |||
|- | |- | ||
| Dialog/Display | | Dialog/Display | ||
| | | Both of them refer to a Graphical User Interface, but within the context of Arma, there are small differences between the two, which is explained [[#createDialog_vs_createDisplay_vs_cutRsc|later in this page]]. | ||
|- | |- | ||
| HUD | | HUD | ||
| '''H'''eads-'''u'''p-'''D'''isplay. A type of display for | | '''H'''eads-'''u'''p-'''D'''isplay. A type of display meant for showing information without affecting the ability of the user to move and look around. | ||
|- | |- | ||
| UIEH | | UIEH | ||
| '''U'''ser '''I'''nterface '''E'''vent '''H'''andler. | | '''U'''ser '''I'''nterface '''E'''vent '''H'''andler. Specific events can happen inside User Interface, for example: when the mouse cursor enters a specific area of the User Interface. If a Handler for that particular event has been created, it will execute any code which has been assigned to that handler. More details about this [[#User_Interface_Event_Handlers|can be found later in this page]]. | ||
|} | |} | ||
Line 57: | Line 61: | ||
==== Import Classes Via import Keyword (Mission Only) ==== | ==== Import Classes Via import Keyword (Mission Only) ==== | ||
{{GVI|arma3|2.02}} You can use the base classes from the game config by using the [[import]] keyword: | {{GVI|arma3|2.02}} You can use the base classes from the game config by using the [[import (Config)|import]] keyword: | ||
<syntaxhighlight lang="cpp"> | <syntaxhighlight lang="cpp"> | ||
import RscObject; | import RscObject; | ||
Line 307: | Line 311: | ||
<sqf> | <sqf> | ||
// Wrong, stores MissionDisplay in the missionNamespace: | // Wrong, stores MissionDisplay in the missionNamespace: | ||
MissionDisplay = | MissionDisplay = findDisplay 46; | ||
</sqf> | </sqf> | ||
<sqf> | <sqf> | ||
// Correct: | // Correct: | ||
with uiNamespace do { | with uiNamespace do { | ||
MissionDisplay = | MissionDisplay = findDisplay 46; | ||
}; | }; | ||
</sqf> | </sqf> | ||
Line 332: | Line 336: | ||
_myCtrl ctrlSetText _text; | _myCtrl ctrlSetText _text; | ||
</sqf> | </sqf> | ||
== Final Result == | == Final Result == | ||
Line 438: | Line 441: | ||
class ControlsBackground | class ControlsBackground | ||
{ | { | ||
class Background: RscText | class Background : RscText | ||
{ | { | ||
idc = -1; | idc = -1; | ||
Line 450: | Line 453: | ||
class Controls | class Controls | ||
{ | { | ||
class ClickMe: RscButton | class ClickMe : RscButton | ||
{ | { | ||
idc = -1; | idc = -1; | ||
Line 474: | Line 477: | ||
class Controls | class Controls | ||
{ | { | ||
class CenterText: RscStructuredText | class CenterText : RscStructuredText | ||
{ | { | ||
text = "This text box will stay here for 10 seconds. You can still move and look around."; | text = "This text box will stay here for 10 seconds. You can still move and look around."; | ||
Line 680: | Line 683: | ||
class Controls | class Controls | ||
{ | { | ||
class Text: RscStructuredText | class Text : RscStructuredText | ||
{ | { | ||
idc = IDC_RSCDISPLAYTEST_TEXT; | idc = IDC_RSCDISPLAYTEST_TEXT; | ||
... | ... | ||
}; | }; | ||
class Hint: RscButton | class Hint : RscButton | ||
{ | { | ||
idc = IDC_RSCDISPLAYTEST_HINT; | idc = IDC_RSCDISPLAYTEST_HINT; |
Latest revision as of 13:36, 21 April 2024
This page will teach you how to create your very own User Interface for Arma.
The second part of this page will dive deeper into the possibilities for creating User Interfaces for Arma 3.
The Basics
Terminology
Before we begin, let us define a few words:
Term | Meaning |
---|---|
UI | User Interface. This is a general term that describes anything on a screen that can interface with the user. |
GUI | Graphical User Interface. a more specific version of UI. It refers to a user interface that has a graphical appearance. |
Dialog/Display | Both of them refer to a Graphical User Interface, but within the context of Arma, there are small differences between the two, which is explained later in this page. |
HUD | Heads-up-Display. A type of display meant for showing information without affecting the ability of the user to move and look around. |
UIEH | User Interface Event Handler. Specific events can happen inside User Interface, for example: when the mouse cursor enters a specific area of the User Interface. If a Handler for that particular event has been created, it will execute any code which has been assigned to that handler. More details about this can be found later in this page. |
Config
You will need files for the following parts:
- A config
- Basic control classes
- A display config
Your folder structure could look something like this:
mission.World/
├── mission.sqm
├── description.ext
├── UI/
│ ├── BaseControls.hpp
│ ├── RscDisplayName.hpp
If you are making a mod the description.ext will be called config.cpp and there is no mission.sqm. For an introduction to creating mods, see Creating An Addon. We will call the description.ext and config.cpp the main config to cover both.
Main Config Content
All display classes are defined in here. Since the config can get very long we will instead include the files in one another with the #include preprocessor:
#include "UI\BaseControls.hpp"
#include "UI\RscDisplayName.hpp"
Parent Controls
Also known as base controls. They are the controls that we will be inheriting from. This means that we will copy the content of the parent class without having to rewrite every class. Each parent class has its own unique functionality or appearance determined by their attributes, for example the color of the background is determined by the colorBackground attribute. If we inherit from this parent class then our dialog control will have the same background color as the parent class. The concept of class inheritance is explained here. There are three ways to declare these base classes.
Import Classes Via import Keyword (Mission Only)
2.02 You can use the base classes from the game config by using the import keyword:
import RscObject;
import RscText;
import RscFrame;
import RscLine;
import RscProgress;
import RscPicture;
import RscPictureKeepAspect;
import RscVideo;
import RscHTML;
import RscButton;
import RscShortcutButton;
import RscEdit;
import RscCombo;
import RscListBox;
import RscListNBox;
import RscXListBox;
import RscTree;
import RscSlider;
import RscXSliderH;
import RscActiveText;
import RscActivePicture;
import RscActivePictureKeepAspect;
import RscStructuredText;
import RscToolbox;
import RscControlsGroup;
import RscControlsGroupNoScrollbars;
import RscControlsGroupNoHScrollbars;
import RscControlsGroupNoVScrollbars;
import RscButtonTextOnly;
import RscButtonMenu;
import RscButtonMenuOK;
import RscButtonMenuCancel;
import RscButtonMenuSteam;
import RscMapControl;
import RscMapControlEmpty;
import RscCheckBox;
Declare Classes (Addon Only)
We have access to the classes from the game's config when we declare them beforehand.
class RscObject;
class RscText;
class RscFrame;
class RscLine;
class RscProgress;
class RscPicture;
class RscPictureKeepAspect;
class RscVideo;
class RscHTML;
class RscButton;
class RscShortcutButton;
class RscEdit;
class RscCombo;
class RscListBox;
class RscListNBox;
class RscXListBox;
class RscTree;
class RscSlider;
class RscXSliderH;
class RscActiveText;
class RscActivePicture;
class RscActivePictureKeepAspect;
class RscStructuredText;
class RscToolbox;
class RscControlsGroup;
class RscControlsGroupNoScrollbars;
class RscControlsGroupNoHScrollbars;
class RscControlsGroupNoVScrollbars;
class RscButtonTextOnly;
class RscButtonMenu;
class RscButtonMenuOK;
class RscButtonMenuCancel;
class RscButtonMenuSteam;
class RscMapControl;
class RscMapControlEmpty;
class RscCheckBox;
Export Classes Via BIS_fnc_exportGUIBaseClasses
Run this command from the debug console:
The result is copied to the clipboard. Paste it into BaseControls.hpp.
Display Config
A display class looks like this:
class RscDisplayName
{
idd = 1234;
class ControlsBackground
{
};
class Controls
{
};
};
RscDisplayName is the name of the display which will be used in the createDisplay/createDialog commands.
idd is the identification number for the display. It is used in the findDisplay command. It is mandatory to have it defined. If you don't intend to use the idd you can set it to -1.
ControlsBackground contains all controls that should stay in the background, for example the dark background of the display.
Controls contains all important controls, for example buttons.
Controls Config
The most common way to create a UI in Arma 3 is via the Arma 3: User Interface Editor. The BIKI page contains a tutorial on it too. You might also be interested in some of the external UI editors listed here.
A possible output from the GUI Editor might look like this:
class RscButton_1600: RscButton
{
idc = 1600;
x = GUI_GRID_CENTER_X + 0 * GUI_GRID_CENTER_W;
y = GUI_GRID_CENTER_Y + 0 * GUI_GRID_CENTER_H;
w = 40 * GUI_GRID_CENTER_W;
h = 25 * GUI_GRID_CENTER_H;
};
The idc is the identification number for a control. It is used in the displayCtrl command and can be returned by the ctrlIDC command.
x and y determine the position of the control. w and h determine the size. These numbers are given in screen coordinates. They are somewhat complicated so read about them on the linked page. In the example the GUI_GRID_CENTER_X
Apart from the editable attributes in the GUI Editor there are even more. Which exactly depends on the type of the control. Here is an overview over all available control types (CTs).
Control Types / MACRO (TYPE VALUE) | |
---|---|
Text/Image/Video |
CT_STATIC (0) | CT_EDIT (2) | CT_HTML (9) | CT_STRUCTURED_TEXT (13) |
Buttons |
CT_BUTTON (1) | CT_ACTIVETEXT (11) | CT_SHORTCUTBUTTON (16) | CT_CHECKBOX (77) | CT_XBUTTON (41) |
Lists |
CT_COMBO (4) | CT_TOOLBOX (6) | CT_CHECKBOXES (7) | CT_TREE (12) | CT_CONTROLS_TABLE (19) | CT_XCOMBO (44) | CT_LISTBOX (5) | CT_LISTNBOX (102) | CT_LISTNBOX_CHECKABLE (104) | CT_XLISTBOX (45) |
3D Objects |
CT_OBJECT (80) | CT_OBJECT_ZOOM (81) | CT_OBJECT_CONTAINER (82) | CT_OBJECT_CONT_ANIM (83) |
Maps |
CT_MAP (100) | CT_MAP_MAIN (101) |
Meta |
CT_SLIDER (3) | CT_XSLIDER (43) | CT_PROGRESS (8) | CT_CONTROLS_GROUP (15) | CT_WEBBROWSER (106) | CT_EXTENSION (107) |
Menu |
CT_CONTEXT_MENU (14) | CT_MENU (46) | CT_MENU_STRIP (47) |
Unknown |
CT_STATIC_SKEW (10) | CT_HITZONES (17) | CT_VEHICLETOGGLES (18) | CT_XKEYDESC (40) | CT_ANIMATED_TEXTURE (45) | CT_LINEBREAK (98) | CT_USER (99) | CT_ITEMSLOT (103) | CT_VEHICLE_DIRECTION (105) |
HUDs
A Head-Up-Display is just another type of display in Arma 3. All of the above applies to them too. The differences are:
- The player will be able to move and look around while the display is open but can not interact with it.
- The display class has to be listed as part of the RscTitles class:
#include "UI\BaseControls.hpp"
class RscTitles
{
#include "UI\RscMyHUD.hpp"
};
- The display class needs the duration attribute. It determines how long the display will stay on screen. You can choose a large number to make it stay "forever", for example 10^6 (scientific notation: 1e+6) seconds.
class RscMyHUD
{
idd = -1;
duration = 1e+6;
{ // ...
- The commands for controlling the display are also different:
- HUDs are created with cutRsc.
- findDisplay does not work on RscTitles displays. Save the display as a variable to uiNamespace instead. You can get the display with the following code:
class RscMyHUD
{
idd = -1;
onLoad = "uiNamespace setVariable ['RscMyHUD', _this select 0];";
duration = 1e+6;
class Controls
{ // ...
Scripting
To bring your dialog to life you will need to know how to influence it with sqf commands. A list of all available UI related commands can be found here. A list of GUI related functions can be found here. Some control types have special commands such as lbAdd to add an item to a listbox. A list of commands that are related to the control type can be found on the control type's BIKI page.
createDialog vs createDisplay vs cutRsc
createDialog, createDisplay and cutRsc (for HUDs) all have their own unique use cases. Here is an overview of what each command does or does not do:
createDialog | createDisplay | cutRsc | |
---|---|---|---|
Interactable | |||
Player can move | Depends on the parent display | ||
Player can look around | |||
Esc closes display | |||
Can be returned by findDisplay | |||
Returns created display | Depends on command syntax | ||
Can be created on top of another display | (not recommended) | (preferred method) | (can coexist with other displays but remains uninteractable) |
User Interface Event Handlers
User interface event handlers (UIEH) are a way to detect changes to the UI. A list of them can be found here. Once again, different control types have different UIEHs. For example onButtonClick will detect when a button is clicked. The arguments that are passed to the script also depend on the UIEH. The onButtonClick event will pass the button itself as the only argument in the _this variable. On the other hand onLBSelChanged will pass the control and the selected index as arguments into the script. Since the UIEH is a different script instance, all previously defined local variables will not be available in the code. There are two ways to add an UIEH to a control:
Adding UIEHs via config
The UIEH is given as an attribute of the control's class like this:
class ClickMe: RscButton
{
idc = -1;
text = "Click Me!";
onButtonClick = "hint 'You clicked the button!';"; // Display a hint when clicked upon
x = GUI_GRID_CENTER_X + 10 * GUI_GRID_CENTER_W;
y = GUI_GRID_CENTER_Y + 12 * GUI_GRID_CENTER_H;
w = 20 * GUI_GRID_CENTER_W;
h = 1 * GUI_GRID_CENTER_H;
};
The UIEH's name always starts with "on". The code that should be executed is given as a string.
Adding UIEHs via script
To add UIEHs you can also use ctrlAddEventHandler. In this case the UIEH does NOT start with "on"!
UI Variables and Serialization
Variables containing Displays or Controls are not serializable, meaning they can not be stored in save files such as those used by saveGame and loadGame.
While treating UI variables like other variables does not crash the game when saving, it is at least bad practice and leads to error log entries (see Crash Files).
UI variables should therefore be used properly like so:
Use the uiNamespace to store UI variables outside of scripts and functions.
Use disableSerialization before introducing UI variables in scripts and functions.
Final Result
description.ext or config.cpp
#include "\a3\ui_f\hpp\defineCommonGrids.inc"
#include "UI\BaseControls.hpp"
#include "UI\RscDisplayName.hpp"
class RscTitles
{
#include "UI\RscMyHUD.hpp"
};
BaseControls.hpp
It is only necessary to import/declare the base classes that you actually intend to use. More usable base controls can be found in the base config of the game. Use the ingame Config Viewer to find them.
Mission
import RscObject;
import RscText;
import RscFrame;
import RscLine;
import RscProgress;
import RscPicture;
import RscPictureKeepAspect;
import RscVideo;
import RscHTML;
import RscButton;
import RscShortcutButton;
import RscEdit;
import RscCombo;
import RscListBox;
import RscListNBox;
import RscXListBox;
import RscTree;
import RscSlider;
import RscXSliderH;
import RscActiveText;
import RscActivePicture;
import RscActivePictureKeepAspect;
import RscStructuredText;
import RscToolbox;
import RscControlsGroup;
import RscControlsGroupNoScrollbars;
import RscControlsGroupNoHScrollbars;
import RscControlsGroupNoVScrollbars;
import RscButtonTextOnly;
import RscButtonMenu;
import RscButtonMenuOK;
import RscButtonMenuCancel;
import RscButtonMenuSteam;
import RscMapControl;
import RscMapControlEmpty;
import RscCheckBox;
Addon
class RscObject;
class RscText;
class RscFrame;
class RscLine;
class RscProgress;
class RscPicture;
class RscPictureKeepAspect;
class RscVideo;
class RscHTML;
class RscButton;
class RscShortcutButton;
class RscEdit;
class RscCombo;
class RscListBox;
class RscListNBox;
class RscXListBox;
class RscTree;
class RscSlider;
class RscXSliderH;
class RscActiveText;
class RscActivePicture;
class RscActivePictureKeepAspect;
class RscStructuredText;
class RscToolbox;
class RscControlsGroup;
class RscControlsGroupNoScrollbars;
class RscControlsGroupNoHScrollbars;
class RscControlsGroupNoVScrollbars;
class RscButtonTextOnly;
class RscButtonMenu;
class RscButtonMenuOK;
class RscButtonMenuCancel;
class RscButtonMenuSteam;
class RscMapControl;
class RscMapControlEmpty;
class RscCheckBox;
RscDisplayName.hpp
class RscDisplayName
{
idd = 1234;
class ControlsBackground
{
class Background : RscText
{
idc = -1;
x = GUI_GRID_CENTER_X;
y = GUI_GRID_CENTER_Y;
w = 40 * GUI_GRID_CENTER_W;
h = 25 * GUI_GRID_CENTER_H;
colorBackground[] = {0,0,0,0.8};
};
};
class Controls
{
class ClickMe : RscButton
{
idc = -1;
text = "Click Me!";
onButtonClick = "hint 'You clicked the button!';";
x = GUI_GRID_CENTER_X + 10 * GUI_GRID_CENTER_W;
y = GUI_GRID_CENTER_Y + 12 * GUI_GRID_CENTER_H;
w = 20 * GUI_GRID_CENTER_W;
h = 1 * GUI_GRID_CENTER_H;
};
};
};
RscMyHUD.hpp
class RscMyHUD
{
idd = -1;
onLoad = "uiNamespace setVariable ['RscMyHUD', _this select 0];";
duration = 10;
fadeIn = 1;
fadeOut = 1;
class Controls
{
class CenterText : RscStructuredText
{
text = "This text box will stay here for 10 seconds. You can still move and look around.";
x = GUI_GRID_CENTER_X;
y = GUI_GRID_CENTER_Y;
w = 40 * GUI_GRID_CENTER_W;
h = 25 * GUI_GRID_CENTER_H;
colorBackground[] = {0,0,0,0.8};
};
};
};
Creating the UIs ingame
For the dialog execute:
And for the HUD:
Note: The BIS_fnc_rscLayer call is not really necessary, as well as having a named layer at all, but this is the recommended way.
Summary
- A UI consists of the following parts:
- Base controls to inherit from
- The display
- UIEHs
- You can get the base controls in a few different ways
- The display contains a list of (non) interactable controls
- These controls can have different styles and functionalities
- You can use the GUI Editor or external tools to have a "What You See Is What You Get" approach
- UIEHs can detect interactions with the UI
Afterword
Now it is up to you to create some UIs. If you have questions feel free to ask them on the BI Forums for mission makers or addon makers. You can also find a Discord channel dedicated to GUI editing on the Arma 3 Discord.
Advanced UI Creation
This part will list some of the more advanced techniques to create and handle UIs. The list is somewhat unordered, as it is more of a list of "nice to know" things.
Faster Debugging
Mission
The mission config is reloaded every time the mission is saved or when you return from the preview to Eden. Instead of previewing the mission and creating your UI it is possible to instead preview the UI in Eden directly. Execute the following command in the Debug Console while in Eden:
Your UI is created on top of the Eden display (IDD: 313). Now you can simply make changes to the UI, close the display, save the mission and execute the command again. The changes should now take effect.
Addon
The diag_mergeConfigFile command will enable you to reload the UI's config without having to restart the game or repack the mod. Here is a little script that would do just that:
The second line either creates your dialog on top of the Eden display, if you are in Eden, or on top of the escape menu when you are ingame.
BIS_fnc_initDisplay
When creating a mod you are able to utilize BIS_fnc_initDisplay which will handle parts of your UI. As an example we will be taking a look at an Arma 3 display called RscDisplayAAR.
Compiling display script to uiNamespace
The partial config of RscDisplayAAR looks like this:
class RscDisplayAAR
{
scriptName = "RscDisplayAAR";
scriptPath = "GUI";
onLoad = "[""onLoad"",_this,""RscDisplayAAR"",'GUI'] call (uinamespace getvariable 'BIS_fnc_initDisplay')";
onUnload = "[""onUnload"",_this,""RscDisplayAAR"",'GUI'] call (uinamespace getvariable 'BIS_fnc_initDisplay')";
idd = 2121;
//...
We can utilize the INIT_DISPLAY macro from "\a3\ui_f\hpp\defineCommon.inc" to shorten that config:
#include "\a3\ui_f\hpp\defineCommon.inc"
class RscDisplayAAR
{
INIT_DISPLAY(RscDisplayAAR,GUI)
idd = 2121;
//...
Now let's see what these attributes do. On game start BIS_fnc_initDisplay will look through the following configs to search for UIs:
If a class has the attributes scriptName and scriptPath (and the attribute scriptIsInternal is not defined or 0) then the display function is compiled into uiNamespace in the following way:
- scriptPath points to a config attribute in configFile >> "CfgScriptPaths"
- The value of that attribute points to a folder which contains the sqf file with the name provided by scriptName
- This script is compiled to uiNamespace as the value given by the scriptName attribute and appended by "_script"
In case of RscDisplayAAR:
- scriptPath is "GUI"
- The value of the attribute "GUI" from configFile >> "CfgScriptPaths" is "A3\ui_f\scripts\GUI\"
- The script "A3\ui_f\scripts\GUI\RscDisplayAAR.sqf" is compiled as RscDisplayAAR_script to uiNamespace
Handling onLoad and onUnload UIEHs
BIS_fnc_initDisplay is meant to be called from the onLoad and onUnload UIEH of the display as you can see in the config above. In both UIEHs the display's function is called with the following parameters:
- _mode: String - either "onLoad" or "onUnload"
- _params: Array - The parameters of the onLoad or onUnload UIEH
- _class: String - The classname of the display
Here is an overview of the variables that are introduced by BIS_fnc_initDisplay. All variables are updated in the onLoad and onUnload UIEH.
Variable | Namespace | Explanation | Example |
---|---|---|---|
RscDisplayName_script | uiNamespace | The display's script as defined by the scriptPath and scriptName attributes | |
RscDisplayName | uiNamespace | Reference to the display which can be used with GUI commands | |
BIS_fnc_initDisplay_configClass | Display | Config path of the display | |
PREFIX_displays | uiNamespace | List of open displays with the PREFIX provided as the fourth param of the function |
Scripted Event Handlers
The function calls the following Scripted Eventhandlers:
- OnDisplayRegistered
- OnDisplayUnregistered
In both cases the scripted eventhandlers are executed in missionNamespace and the display and the classname of the display are passed as arguments.
Example:
UI Scripts
This section will explain how BI handles the sqf part of their dialogs. Most, if not all, UIs rely on BIS_fnc_initDisplay. As explained earlier, this function compiles and calls the script for the display. Most of the UI scripts can be found in the game files under
#define SELF RscDisplayTest_script - The macro "SELF" refers to the UI's script in the uiNamespace set by BIS_fnc_initDisplay.
#include "path\to\idcMacros.inc" - This line will move the content of the given file to this script. In our case that file might look like this:
//--- RscDisplayTest
#define IDD_RSCDISPLAYTEST 1234
#define IDC_RSCDISPLAYTEST_TEXT 1000
#define IDC_RSCDISPLAYTEST_HINT 1001
The idcs must match the config, the idcMacros.inc file is included in the description.ext/config.cpp:
class RscDisplayTest
{
idd = IDD_RSCDISPLAYTEST;
...
class Controls
{
class Text : RscStructuredText
{
idc = IDC_RSCDISPLAYTEST_TEXT;
...
};
class Hint : RscButton
{
idc = IDC_RSCDISPLAYTEST_HINT;
...
};
};
};
Now we can use the macros instead of the idcs. This makes changing the idc of a given control way easier as you only have to change one line instead of tracking down every instance where you used the idc. The extension ".inc" usually denotes a file that can be included by configs and sqf scripts alike.
params ["_mode", "_params", "_class"]; - Since the script is called from BIS_fnc_initDisplay it will contain these params. We will also use the same structure for any subsequent calls of our script as we will see later.
switch _mode do - Using a switch will enable us to reuse the same script for different purposes which are all related to the same UI.
case "onLoad" // or "onUnload" - These events are called by BIS_fnc_initDisplay. While both can be omitted, the onLoad UIEH is used to set up the UI.
_params params ["_display"]; - _params is an array which contains the arguments specific to the given case. In the case of the onLoad event it contains the arguments passed through BIS_fnc_initDisplay which are the same arguments used in the onLoad UIEH. The same applies to the onUnload UIEH which passes a reference to the display as well as the exit code (number, 0 = OK, 2 = CANCEL).
_ctrlText ctrlSetText str time; - The onLoad event is used to set the initial state of the display and...
_ctrlHint ctrlAddEventHandler ["ButtonClick", { /* ... */ }]; - ...to add UIEHs to the controls.
with uiNamespace do { ["ShowHint", _this] call SELF; }; - Since BIS_fnc_initDisplay compiles the script to uiNamespace, we have to call it there too. This UIEH executes the "ShowHint" case of the script and passes the UIEH's parameters directly to the script. The code of the UIEH "ButtonClick" here knows nothing about the rest of the script. All local variables set beforehand are not available.
case "ShowHint": - You can add your own events to the script like this. Be aware that the switch is case sensitive!
_params params ["_ctrlHint"]; - The ButtonClick UIEH passes a reference to the clicked button inside the _this variable of the UIEH (or the _params variable in the script).
You can also take a look at