BehringerXTouchExtender 0.0.1-SNAPSHOT2
See the version list below for details.
dotnet add package BehringerXTouchExtender --version 0.0.1-SNAPSHOT2
NuGet\Install-Package BehringerXTouchExtender -Version 0.0.1-SNAPSHOT2
<PackageReference Include="BehringerXTouchExtender" Version="0.0.1-SNAPSHOT2" />
paket add BehringerXTouchExtender --version 0.0.1-SNAPSHOT2
#r "nuget: BehringerXTouchExtender, 0.0.1-SNAPSHOT2"
// Install BehringerXTouchExtender as a Cake Addin #addin nuget:?package=BehringerXTouchExtender&version=0.0.1-SNAPSHOT2&prerelease // Install BehringerXTouchExtender as a Cake Tool #tool nuget:?package=BehringerXTouchExtender&version=0.0.1-SNAPSHOT2&prerelease
Send and receive events with a Behringer X-Touch Extender DAW MIDI control surface over USB.
Quick Start
dotnet new console
dotnet add package BehringerXTouchExtender
// Program.cs
using BehringerXTouchExtender;
using var device = BehringerXTouchExtenderFactory.CreateWithRelativeMode();
device.Open();
var scribbleStrip = device.GetScribbleStrip(0);
scribbleStrip.TopText.Connect("Hello");
scribbleStrip.BottomText.Connect("World");
scribbleStrip.TopTextColor.Connect(ScribbleStripTextColor.Light);
scribbleStrip.BottomTextColor.Connect(ScribbleStripTextColor.Dark);
scribbleStrip.BackgroundColor.Connect(ScribbleStripBackgroundColor.Magenta);
dotnet run
Prerequisites
- A Behringer X-Touch Extender
- Connect over USB, not Ethernet
- Set to absolute or relative MIDI control mode (persistent)
- Turn on the device while holding the track 1 select button
- Turn the track 1 rotary encoder knob until the track 1 LCD shows
Ctrl
(absolute MIDI control mode) orCtrlRel
(relative MIDI control mode) - Press the track 1 select button
- AMD Zen2 (Ryzen 3000) and later only: install firmware 1.21 or later to fix the broken USB connection
- Turn on the device while holding the track 8 record button
- Download and run MIDI-OX on an unaffected (e.g. Intel) computer connected to the device over USB
- Highlight the
X-Touch-Ext
entries in Options › MIDI Devices - Select the downloaded
.syx
file using Actions › Send › SysEx File - Wait for the upgrade to finish
- Reboot the device using the power button
- Any Microsoft .NET runtime that supports .NET Standard 2.0 or later
Installation
You can install this library into your project from NuGet Gallery:
dotnet add package BehringerXTouchExtender
Install-Package BehringerXTouchExtender
- Go to Project › Manage NuGet Packages in Visual Studio and search for
BehringerXTouchExtender
Connection
- Use
BehringerXTouchExtenderFactory
to create a device instance you can use.- If you set your X-Touch Extender to
Ctrl
mode:using BehringerXTouchExtender; using var device = BehringerXTouchExtenderFactory.CreateWithAbsoluteMode();
- If you set your X-Touch Extender to
CtrlRel
mode:using BehringerXTouchExtender; using var device = BehringerXTouchExtenderFactory.CreateWithRelativeMode();
- If you set your X-Touch Extender to
- Once the X-Touch Extender is powered on and connected over USB, open the connection.
device.Open();
Track identifiers
The X-Touch Extender is divided into eight vertical banks of controls, called tracks or channels. In this library, they are numbered from 0 on the left to 7 on the right (0-indexed).
On the physical device, the painted legends are 1-indexed, but 0-indexing is easier and less confusing to use in software.
Any time this library takes or provides a track ID, it's 0-indexed.
In most of the code examples below, the trackId
argument used is 0
.
Reactive data
This library handles data using KoKo Property
objects. These encapsulate values that can change, including automatically in response to other Properties, and they automatically fire change events.
If you have your own Property that you want to drive a control on the X-Touch Extender, you can connect it to this library.
using KoKo;
var scribbleStrip = device.GetScribbleStrip(0);
var greeting = new StoredProperty<string>("Hello");
scribbleStrip.TopText.Connect(greeting);
// The device will show "Hello"
greeting.Value = "Hola";
// The device will automatically update to show "Hola"
KoKo Properties are used by all values on all controls in this library, not just scribble strips. This is useful if the desired value actually depends on other values, because they can all be automatically calculated without any manual change event firing or listening.
Property<CultureInfo> cultureInfo;
var greeting = DerivedProperty.Create<string>(cultureInfo, culture => culture.Name switch {
"es" => "Hola",
_ => "Hello"
});
scribbleStrip.TopText.Connect(greeting);
// The device will automatically update the greeting shown whenever the cultureInfo property changes
These Properties are used for reading changing data as well as writing it. You can read the immediate value, as well as registering for events whenever the Property changes in the future.
var button = device.GetRecordButton(0);
if(button.IsPressed.Value){
Console.WriteLine("Button is pressed");
}
button.IsPressed.PropertyChanged += (sender, args) => {
if(args.NewValue){
Console.WriteLine("Button was pressed");
}
};
If you don't want to create reactive properties, you can connect the device's properties to constant values whenever you want them to change.
scribbleStrip.BottomText.Connect("World");
Usage
Rotary encoders
IRotaryEncoder rotaryEncoder = device.GetRotaryEncoder(0);
<a id="illuminating-lights"></a>
Illuminating lights
There are thirteen orange lights on each rotary encoder. Exactly one of them is illuminated at any given time. Set the LightPosition
property to change which light is illuminated.
They are numbered from 0
(most counter-clockwise) to 12
(most clockwise). Values outside this range are clipped to stay within [0, 12]
.
The maximum value 13
is available programmatically in the IRotaryEncoder.LightCount
property.
rotaryEncoder.LightPosition.Connect(0);
// Most counter-clockwise light illuminates
<a id="detecting-presses"></a>
Detecting presses
You can click in on the knob and the rotary encoder's IsPressed
Property will change to true
(pressed) or false
(not pressed).
Console.WriteLine($"Rotary encoder is currently {(rotaryEncoder.IsPressed.Value ? "pressed" : "not pressed")}");
rotaryEncoder.IsPressed.PropertyChanged += (sender, args) =>
Console.WriteLine($"Rotary encoder was {(args.NewValue ? "pressed" : "released")}");
<a id="detecting-rotation"></a>
Detecting rotation
The available Properties and their values for a rotary encoder depend on whether you created your IBehringerXTouchExtender
instance using either BehringerXTouchExtenderFactory.CreateWithAbsoluteMode()
or .CreateWithRelativeMode()
.
This control mode must match the configured mode on the physical X-Touch Extender (Ctrl
or CtrlRel
, respectively).
Absolute control mode
Available when you set the X-Touch Extender's control mode to Ctrl
and called BehringerXTouchExtenderFactory.CreateWithAbsoluteMode()
.
When the knob is rotated, the rotary encoder will update its RotationPosition
Property with the new position of the knob, from 0.0
(most counter-clockwise) to 1.0
(most clockwise).
If you keep turning the knob while it is at one of its numeric limits, the RotationPosition
value will stay in the range [0.0, 1.0]
.
using IAbsoluteBehringerXTouchExtender device = BehringerXTouchExtenderFactory.CreateWithAbsoluteMode();
device.Open();
IAbsoluteRotaryEncoder rotaryEncoder = device.GetRotaryEncoder(0);
rotaryEncoder.RotationPosition.PropertyChanged += (sender, args) =>
Console.WriteLine($"Knob was turned to {args.NewValue:P0}");
Relative control mode
Available when you set the X-Touch Extender's control mode to CtrlRel
and called BehringerXTouchExtenderFactory.CreateWithRelativeMode()
.
When the knob is rotated, the rotary encoder will emit a Rotated
event that tells you in which direction it was rotated. It does not tell you how far it was rotated, instead, it sends more Rotated
events as you continue to turn the knob.
Each Rotated
event corresponds to turning the knob until you feel the next physical detent. One complete 360° rotation is 24 detents, with 15° between each one.
using IRelativeBehringerXTouchExtender device = BehringerXTouchExtenderFactory.CreateWithRelativeMode();
device.Open();
IRelativeRotaryEncoder rotaryEncoder = device.GetRotaryEncoder(0);
rotaryEncoder.Rotated += (sender, args) =>
Console.WriteLine($"Knob was turned 15° {(args.IsClockwise ? "clockwise" : "counter-clockwise")}");
Scribble strips
These are the LCD screens at the top of each track column. They are so named because they are digital replacements for putting a strip of tape on your analog mixer and scribbling the channel name on them with a marker.
The eight X-Touch Extender scribble strips can each show two lines of seven ASCII characters each. The background color can be Black
, Red
, Green
, Yellow
, Blue
, Magenta
, Cyan
, or White
. The text color can be light or dark, with the negative space inverted, and can be set independently for both rows.
I recommend not using a Black
background, because it's completely illegible and the LCD appears to be off or broken, even with Light
text. Instead, to show white text on a black background, you should set the background color to White
and the text color to Light
.
IScribbleStrip scribbleStrip = device.GetScribbleStrip(0);
scribbleStrip.TopText.Connect("Hello");
scribbleStrip.BottomText.Connect("World");
scribbleStrip.TopTextColor.Connect(ScribbleStripTextColor.Light);
scribbleStrip.BottomTextColor.Connect(ScribbleStripTextColor.Dark);
scribbleStrip.BackgroundColor.Connect(ScribbleStripBackgroundColor.Magenta);
For low-level protocol details of this control, see the Scribble strip RAW MIDI usage.
VU meters
There are eight lights on each VU meter, at most one of which can be illuminated at any time. They can also all be turned off.
The lights are numbered from 1
at the bottom to 8
at the top, with 0
representing all lights being turned off. You can change which one is illuminated by setting the LightPosition
Property.
The bottom four lights (1
–4
) are green, the next three (5
–7
) are orange, and the top light (8
) is red.
The maximum value 8
is available programmatically in the IVuMeter.LightCount
property.
IVuMeter vuMeter = device.GetVuMeter(0);
vuMeter.LightPosition.Connect(vuMeter.LightCount);
// Top red light illuminates
Record, solo, mute, and select buttons
IIlluminatedButton recordButton = device.GetRecordButton(0);
IIlluminatedButton soloButton = device.GetSoloButton(0);
IIlluminatedButton muteButton = device.GetMuteButton(0);
IIlluminatedButton selectButton = device.GetSelectButton(0);
<a id="illuminating-lights-1"></a>
Illuminating lights
The buttons lights up different colors depending on what kind of button it is when you set their IlluminationState
Properties to On
. You can also use the Blinking
value to make them blink with a pattern of 0.5 seconds on, 0.5 seconds off. The Off
value turns off the lights.
The record and mute buttons light up red, the solo buttons light up yellow, and the select buttons light up green. When they are off, the buttons are all gray.
button.IlluminationState.Connect(IlluminatedButtonState.On);
// Light up whenever button is pressed
button.IlluminationState.Connect(DerivedProperty<IlluminatedButtonState>.Create(button.IsPressed, isPressed =>
isPressed ? IlluminatedButtonState.On : IlluminatedButtonState.Off));
<a id="detecting-presses-1"></a>
Detecting presses
You can press the buttons and their IsPressed
Properties will change to true
(pressed) or false
(not pressed).
Faders
Faders are the vertical sliders on each track. They are motorized, so you can move them programmatically to any given position. You can also move them manually with your fingers and detect where they went.
The finger rest knobs have capacitive touch sensors, so the device can sense when you are touching the fader knob, which is useful for preventing the device from moving the fader out from under you when you don't expect it and possibly hurting your hand.
IFader fader = device.GetFader(0);
<a id="detecting-presses-2"></a>
Detecting presses
You can touch the fader knob and its IsPressed
Property will change to true
(touching) or false
(not touching).
fader.IsPressed.PropertyChanged += (sender, args) =>
Console.WriteLine($"{(args.NewValue ? "Touching" : "Not touching")} fader");
<a id="requesting-movement"></a>
Requesting movement
The range of motion for each fader is from 0.0
at the bottom to 1.0
at the top. If you try to move the fader to a value outside this range, it will be clipped to stay within the range [0.0, 1.0]
.
Move a fader by changing the value of its DesiredPosition
Property.
The printed legends on the physical device go from -∞
at the bottom to 10
at the top, with the 0
legend corresponding to a logical value of about 0.75
in this library.
When you read the value of this Property, it returns the most recent position to which you programmatically requested the fader to move, which may be out-of-date, rather than its current position. To get its current position instead, use ActualPosition
(see Detecting movement).
fader.DesiredPosition.Connect(1.0);
// Fader moves all the way to the top of its travel distance.
If the fader is being pressed when you change the DesiredPosition
value, the change will be automatically ignored so that the knob moving doesn't surprise or hurt the user.
<a id="detecting-movement"></a>
Detecting movement
There is a separate ActualPosition
Property that shows where the fader is currently located, which is different from the DesiredPosition
Property that you use to actuate the motor. These are two separate Properties instead of one in order to prevent infinite event loops, and to make it possible to subscribe to only the changes events that you want.
This property will change in response to both manual (finger) and automatic (motor) movement, so it will always have an up-to-date value for the fader's position.
fader.ActualPosition.PropertyChanged += (sender, args) =>
Console.WriteLine($"Fader moved to {args.NewValue:P0}");
Product | Versions Compatible and additional computed target framework versions. |
---|---|
.NET | net5.0 was computed. net5.0-windows was computed. net6.0 was computed. net6.0-android was computed. net6.0-ios was computed. net6.0-maccatalyst was computed. net6.0-macos was computed. net6.0-tvos was computed. net6.0-windows was computed. net7.0 was computed. net7.0-android was computed. net7.0-ios was computed. net7.0-maccatalyst was computed. net7.0-macos was computed. net7.0-tvos was computed. net7.0-windows was computed. net8.0 was computed. net8.0-android was computed. net8.0-browser was computed. net8.0-ios was computed. net8.0-maccatalyst was computed. net8.0-macos was computed. net8.0-tvos was computed. net8.0-windows was computed. |
.NET Core | netcoreapp2.0 was computed. netcoreapp2.1 was computed. netcoreapp2.2 was computed. netcoreapp3.0 was computed. netcoreapp3.1 was computed. |
.NET Standard | netstandard2.0 is compatible. netstandard2.1 was computed. |
.NET Framework | net461 was computed. net462 was computed. net463 was computed. net47 was computed. net471 was computed. net472 was computed. net48 was computed. net481 was computed. |
MonoAndroid | monoandroid was computed. |
MonoMac | monomac was computed. |
MonoTouch | monotouch was computed. |
Tizen | tizen40 was computed. tizen60 was computed. |
Xamarin.iOS | xamarinios was computed. |
Xamarin.Mac | xamarinmac was computed. |
Xamarin.TVOS | xamarintvos was computed. |
Xamarin.WatchOS | xamarinwatchos was computed. |
-
.NETStandard 2.0
- KoKo (>= 2.2.0)
- Melanchall.DryWetMidi (>= 6.1.2)
NuGet packages
This package is not used by any NuGet packages.
GitHub repositories
This package is not used by any popular GitHub repositories.
Version | Downloads | Last updated |
---|---|---|
1.0.1 | 140 | 4/25/2024 |
1.0.0 | 392 | 11/12/2022 |
0.0.1-SNAPSHOT2 | 169 | 10/25/2022 |
0.0.1-SNAPSHOT1 | 152 | 10/8/2022 |