1
0
mirror of synced 2024-11-16 15:33:50 +00:00
G940LEDControl/Docs/scripting.rst
Mark van Renswoude 71a65c91c9 Implemented lights.lua
Fixed syntax error in instruments.lua
Added scripts to setup
Update documentation to reflect automatic creation of scripts folders
2017-06-10 16:31:35 +02:00

117 lines
5.5 KiB
ReStructuredText

Scripting
=========
All functionality introduced by G940LEDControl is described in the :doc:`scriptingreference`. For more information about Lua in general, please refer to the `Lua 5.2 Reference Manual <https://www.lua.org/manual/5.2/>`_.
This guide will walk through how Lua scripting works in G940LEDControl. To avoid confusion when talking about functions in this context they will be referred to as 'button functions' and 'Lua functions'.
Script locations
----------------
The default scripts included with G940LEDControl can be found in the folder selected during installation, for example "C:\\Program Files (x86)\\G940 LED Control". In there you will find a Scripts\\FSX folder containing the Lua files.
In addition scripts are loaded from your user data path. This folder is automatically created by G940LEDControl. To open the folder, type or paste "%APPDATA%\\G940LEDControl\\Scripts\\FSX" into a Windows Explorer address bar and press Enter. Scripts in this folder will not be overwritten when installing a new version.
Anatomy of a button function
----------------------------
Let's take the Autopilot airspeed button function as an example, which at the time of writing looks like this:
::
local strings = require './lib/strings'
RegisterFunction(
{
uid = 'autoPilotAirspeed',
category = strings.Category.FSX.AutoPilot,
displayName = 'Autopilot airspeed',
states = {
on = { displayName = 'On', default = LEDColor.Green },
off = { displayName = 'Off', default = LEDColor.Red },
notAvailable = { displayName = 'Not available', default = LEDColor.Off }
}
},
function(context)
SetState(context, 'notAvailable')
OnSimConnect(context,
{
autoPilotAvailable = { variable = 'AUTOPILOT AVAILABLE', type = SimConnectDataType.Bool },
autoPilotAirspeed = { variable = 'AUTOPILOT AIRSPEED HOLD', type = SimConnectDataType.Bool }
},
function(context, data)
if data.autoPilotAvailable then
if data.autoPilotAirspeed then
SetState(context, 'on')
else
SetState(context, 'off')
end
else
SetState(context, 'notAvailable')
end
end)
end
)
Using anonymous functions like this to implement the various callbacks results in compact code, which can arguably be more difficult to read. For clarity let's expand it first. The following example works exactly the same:
::
local strings = require './lib/strings'
local function variablesChanged(context, data)
if data.autoPilotAvailable then
if data.autoPilotAirspeed then
SetState(context, 'on')
else
SetState(context, 'off')
end
else
SetState(context, 'notAvailable')
end
end
local function setup(context)
SetState(context, 'notAvailable')
OnSimConnect(context,
{
autoPilotAvailable = { variable = 'AUTOPILOT AVAILABLE', type = SimConnectDataType.Bool },
autoPilotAirspeed = { variable = 'AUTOPILOT AIRSPEED HOLD', type = SimConnectDataType.Bool }
},
variablesChanged)
end
RegisterFunction(
{
uid = 'autoPilotAirspeed',
category = strings.Category.FSX.AutoPilot,
displayName = 'Autopilot airspeed',
states = {
on = { displayName = 'On', default = LEDColor.Green },
off = { displayName = 'Off', default = LEDColor.Red },
notAvailable = { displayName = 'Not available', default = LEDColor.Off }
}
},
setup)
So what's happening? When the script is loaded it is automatically run. At this time you should call :ref:`ref-registerfunction` for each button function you want to be visible in G940LEDControl. :ref:`ref-registerfunction` accepts two parameters: a table which describes the button function you want to add, and a Lua function to be called when the button function is assigned to a button.
Every button function must have a unique 'uid'. It is used to save and load profiles and should therefore not be changed once in use. The category and displayName are only used in the main and button function selection screens and can be freely changed.
A button function must also have one or more states. Each state has a key which, like the 'uid', is used to save and load profiles and should also not be changed once in use. A default :ref:`LED color <ref-ledcolor>` can also be set, which sets the initial value in the selection screen when assigning it to a button:
.. image:: autoPilotAirspeedStates.png
Setup function
~~~~~~~~~~~~~~
As soon as the button function is attached to one of the buttons the setup function passed to :ref:`ref-registerfunction` is called. It receives a 'context' parameter, the contents of which are not useable by the script directly, but which you need to pass along to for example :ref:`ref-setstate` later on so that it knows which button function's state needs to be changed.
In the above example the first thing we do is to set the default state using :ref:`ref-setstate`. The second parameter is a string containing the key of one of the states as defined in the :ref:`ref-registerfunction` call.
After that you will normally call one of the built-in Lua functions to be notified of certain events. At the time of writing you can either call :ref:`ref-ontimer` to perform checks on a regular interval or, more common in the case of FSX, :ref:`ref-onsimconnect` to be notified when one or more of the `simulation variables <https://msdn.microsoft.com/en-us/library/cc526981.aspx>`_ change.