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Joystick library for ESP32 S2 & S3 devices (native USB) for the Arduino framework.

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ESP32-S2/S3 Joystick Library

based on Matthew Heironimus great Arduino Joystick lirary

Version 0.9 - forked from Version 2.1.1

This will not work with Arduino IDE 1.6.5 (or below) or with non ESP32-S2/S3 devices (e.g. Arduino UNO, Arduino MEGA, etc.).

To use this library you need to have Arduino core for the ESP32 installed (https://github.com/espressif/arduino-esp32)

Features

The joystick or gamepad can have the following features:

  • Buttons (default: 32)
  • Up to 2 Hat Switches
  • X, Y, and/or Z Axis (up to 16-bit precision)
  • X, Y, and/or Z Axis Rotation (up to 16-bit precision)
  • Rudder (up to 16-bit precision)
  • Throttle (up to 16-bit precision)
  • Accelerator (up to 16-bit precision)
  • Brake (up to 16-bit precision)
  • Steering (up to 16-bit precision)

Installation Instructions

Library manager

Just search for Joystick_ESP32S2 in the library manager of your installation of ArduinoIDE or PlatformIO and install it.

Manual installation

The following instructions can be used to install the latest version of the library in the Arduino IDE (thanks to @per1234 for this update):

  1. Download https://github.com/schnoog/Joystick_ESP32S2/archive/master.zip
  2. In the Arduino IDE, select Sketch > Include Library > Add .ZIP Library.... Browse to where the downloaded ZIP file is located and click Open. The Joystick library's examples will now appear under File > Examples > Joystick.

Please keep in mind that a manual installation is not updated by the library manager of your IDE.

USB Setup

If you only want to play arround with it, I propose to enable USB CDC on boot. This can be done quite easily

  • ArduinoIDE: There's an option in the tools menue to enable USB CDC on boot
  • PlatformIO: Set the option within the platformio.ini of your project
build_flags =
	....
    -DARDUINO_USB_CDC_ON_BOOT=1

If you want to change your joysticks name, USB product id or vendor id, please consult the USBOPTIONS.md or have a look into the Joystick_WithCustomPIDandVID example provided with this library

Examples

Simple example

#include <Joystick_ESP32S2.h>

// Create the Joystick
Joystick_ Joystick;

// Constant that maps the physical pin to the joystick button.
const int pinToButtonMap = 9;

void setup() {
	// Initialize Button Pins
	pinMode(pinToButtonMap, INPUT_PULLUP);

	// Initialize Joystick Library
	Joystick.begin();
}

// Last state of the button
int lastButtonState = 0;

void loop() {

	// Read pin values
	int currentButtonState = !digitalRead(pinToButtonMap);
	if (currentButtonState != lastButtonState)
	{
	Joystick.setButton(0, currentButtonState);
	lastButtonState = currentButtonState;
	}

	delay(50);
}

Included Examples

The following example Arduino sketch files are included in this library:

Simple Samples

  • JoystickButton - Creates a Joystick and maps pin 9 to button 0 of the joystick, pin 10 to button 1, pin 11 to button 2, and pin 12 to button 3.
  • JoystickKeyboard - Creates a Joystick and a Keyboard. Maps pin 9 to Joystick Button 0, pin 10 to Joystick Button 1, pin 11 to Keyboard key 1, and pin 12 to Keyboard key 2.
  • GamepadExample - Creates a simple Gamepad with an Up, Down, Left, Right, and Fire button.
  • FunduinoJoystickShield - Creates a simple Gamepad using a Funduino Joystick Shield (https://protosupplies.com/product/funduino-joystick-shield-v1-a/).
  • ArcadeStickExample - Simple arcade stick example that demonstrates how to read twelve Arduino Pro Micro digital pins and map them to the library (thanks to @nebhead for this example). NOTE: This sketch is for the Arduino Pro Micro only.

Used for Testing

  • JoystickTest - Simple test of the Joystick library. It exercises many of the Joystick library’s functions when pin A0 is grounded.
  • MultipleJoystickTest - Creates 4 Joysticks using the library (each with a slightly different configuration) and exercises the first 16 buttons (if present), the X axis, and the Y axis of each joystick when pin A0 is grounded.
  • FlightControllerTest - Creates a Flight Controller and tests 32 buttons, the X and Y axis, the Throttle, and the Rudder when pin A0 is grounded.
  • HatSwitchTest - Creates a joystick with two hat switches. Grounding pins 4 - 11 cause the hat switches to change position.
  • DrivingControllerTest - Creates a Driving Controller and tests 4 buttons, the Steering, Brake, and Accelerator when pin A0 is grounded.

Joystick Library API

The following API is available if the Joystick library in included in a sketch file.

Joystick_(...)

Constructor used to initialize and setup the Joystick. The following optional parameters are available:

  • uint8_t hidReportId - Default: 0x03 - Indicates the joystick's HID report ID. This value must be unique if you are creating multiple instances of Joystick. Do not use 0x01 or 0x02 as they are used by the built-in Arduino Keyboard and Mouse libraries.
  • uint8_t joystickType - Default: JOYSTICK_TYPE_JOYSTICK or 0x04 - Indicates the HID input device type. Supported values:
    • JOYSTICK_TYPE_JOYSTICK or 0x04 - Joystick
    • JOYSTICK_TYPE_GAMEPAD or 0x05 - Gamepad
    • JOYSTICK_TYPE_MULTI_AXIS or 0x08 - Multi-axis Controller
  • uint8_t buttonCount - Default: 32 - Indicates how many buttons will be available on the joystick.
  • uint8_t hatSwitchCount - Default: 2 - Indicates how many hat switches will be available on the joystick. Range: 0 - 2
  • bool includeXAxis - Default: true - Indicates if the X Axis is available on the joystick.
  • bool includeYAxis - Default: true - Indicates if the Y Axis is available on the joystick.
  • bool includeZAxis - Default: true - Indicates if the Z Axis (in some situations this is the right X Axis) is available on the joystick.
  • bool includeRxAxis - Default: true - Indicates if the X Axis Rotation (in some situations this is the right Y Axis) is available on the joystick.
  • bool includeRyAxis - Default: true - Indicates if the Y Axis Rotation is available on the joystick.
  • bool includeRzAxis - Default: true - Indicates if the Z Axis Rotation is available on the joystick.
  • bool includeRudder - Default: true - Indicates if the Rudder is available on the joystick.
  • bool includeThrottle - Default: true - Indicates if the Throttle is available on the joystick.
  • bool includeAccelerator - Default: true - Indicates if the Accelerator is available on the joystick.
  • bool includeBrake - Default: true - Indicates if the Brake is available on the joystick.
  • bool includeSteering - Default: true - Indicates if the Steering is available on the joystick.

The following constants define the default values for the constructor parameters listed above:

  • JOYSTICK_DEFAULT_REPORT_ID is set to 0x03
  • JOYSTICK_DEFAULT_BUTTON_COUNT is set to 32
  • JOYSTICK_DEFAULT_HATSWITCH_COUNT is set to 2

Joystick.begin(bool initAutoSendState)

Starts emulating a game controller connected to a computer. By default, all methods update the game controller state immediately. If initAutoSendState is set to false, the Joystick.sendState method must be called to update the game controller state.

Joystick.end()

Stops the game controller emulation to a connected computer (Note: just like the Arduino Keyboard.h and Mouse.h libraries, the end() function does not actually do anything).

Joystick.setXAxisRange(int32_t minimum, int32_t maximum)

Sets the range of values that will be used for the X axis. Default: 0 to 1023

Joystick.setXAxis(int32_t value)

Sets the X axis value. See setXAxisRange for the range.

Joystick.setYAxisRange(int32_t minimum, int32_t maximum)

Sets the range of values that will be used for the Y axis. Default: 0 to 1023

Joystick.setYAxis(int32_t value)

Sets the Y axis value. See setYAxisRange for the range.

Joystick.setZAxisRange(int32_t minimum, int32_t maximum)

Sets the range of values that will be used for the Z axis. Default: 0 to 1023

Joystick.setZAxis(int32_t value)

Sets the Z axis value. See setZAxisRange for the range.

Joystick.setRxAxisRange(int32_t minimum, int32_t maximum)

Sets the range of values that will be used for the X axis rotation. Default: 0 to 1023

Joystick.setRxAxis(int32_t value)

Sets the X axis rotation value. See setRxAxisRange for the range.

Joystick.setRyAxisRange(int32_t minimum, int32_t maximum)

Sets the range of values that will be used for the Y axis rotation. Default: 0 to 1023

Joystick.setRyAxis(int32_t value)

Sets the Y axis rotation value. See setRyAxisRange for the range.

Joystick.setRzAxisRange(int32_t minimum, int32_t maximum)

Sets the range of values that will be used for the Z axis rotation. Default: 0 to 1023

Joystick.setRzAxis(int32_t value)

Sets the Z axis rotation value. See setRzAxisRange for the range.

Joystick.setRudderRange(int32_t minimum, int32_t maximum)

Sets the range of values that will be used for the Rudder. Default: 0 to 1023

Joystick.setRudder(int32_t value)

Sets the Rudder value. See setRudderRange for the range.

Joystick.setThrottleRange(int32_t minimum, int32_t maximum)

Sets the range of values that will be used for the Throttle. Default: 0 to 1023

Joystick.setThrottle(int32_t value)

Sets the Throttle value. See setThrottleRange for the range.

Joystick.setAcceleratorRange(int32_t minimum, int32_t maximum)

Sets the range of values that will be used for the Accelerator. Default: 0 to 1023

Joystick.setAccelerator(int32_t value)

Sets the Accelerator value. See setAcceleratorRange for the range.

Joystick.setBrakeRange(int32_t minimum, int32_t maximum)

Sets the range of values that will be used for the Brake. Default: 0 to 1023

Joystick.setBrake(int32_t value)

Sets the Brake value. See setBrakeRange for the range.

Joystick.setSteeringRange(int32_t minimum, int32_t maximum)

Sets the range of values that will be used for the Steering. Default: 0 to 1023

Joystick.setSteering(int32_t value)

Sets the Steering value. See setSteeringRange for the range.

Joystick.setButton(uint8_t button, uint8_t value)

Sets the state (0 or 1) of the specified button (range: 0 - (buttonCount - 1)). The button is the 0-based button number (i.e. button #1 is 0, button #2 is 1, etc.). The value is 1 if the button is pressed and 0 if the button is released.

Joystick.pressButton(uint8_t button)

Press the indicated button (range: 0 - (buttonCount - 1)). The button is the 0-based button number (i.e. button #1 is 0, button #2 is 1, etc.).

Joystick.releaseButton(uint8_t button)

Release the indicated button (range: 0 - (buttonCount - 1)). The button is the 0-based button number (i.e. button #1 is 0, button #2 is 1, etc.).

Joystick.setHatSwitch(int8_t hatSwitch, int16_t value)

Sets the value of the specified hat switch. The hatSwitch is 0-based (i.e. hat switch #1 is 0 and hat switch #2 is 1). The value is from 0° to 360°, but in 45° increments. Any value less than 45° will be rounded down (i.e. 44° is rounded down to 0°, 89° is rounded down to 45°, etc.). Set the value to JOYSTICK_HATSWITCH_RELEASE or -1 to release the hat switch.

Joystick.sendState()

Sends the updated joystick state to the host computer. Only needs to be called if AutoSendState is false (see Joystick.begin for more details).

See the Wiki for more details on things like FAQ, supported boards, testing, etc.