IMU Controller
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vgm/imu_controller/README.md
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# IMU Controller
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## Overview
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IMU Controller project is a library that provides a way to interact with the Flipper Zero's IMU sensor in the Video Game Module. IMU stands for an Inertial Measurement Unit, which means we can accurately know the orientation of the device (regardless of where it is within the room). Pitch and Roll values (the amount of tilt) are used to trigger Up, Down, Left and Right d-pad button presses. The goal of this library is to enable games to be played using the Video Game Module's IMU sensor, with minimal additional coding required.
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## Orientation
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<img src='flipper-pitch-roll-yaw.png' width='50%'/>
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The recommended orientation is with the screen facing up & the video game module facing away from you. To get accurate readings, the device should be held still for a second during initial calibration (typically when the application launches).
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### Pitch
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Postive pitch is when the device is tilted left. Negative pitch is when the device is tilted right. The value is in degrees with the range -90 to 90 (although typically I don't see values larger than 85). The largest value I've seen is 85, when the IR port is facing the ground. The smallest value I've seen is -85, when the IR port is facing straight up. When the pitch angle exceeds the value defined in `.pitch_left` or `.pitch_right` the library will inject a left or right d-pad button press. When the pitch has moved back by `pitch_hysteresis`, the library will inject a release of the d-pad button.
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### Roll
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Positive roll is when the device is tilted down. Negative roll is when the device is tilted to the up. The value is in degrees with the range -180 to 180. The smallest value I've seen is -179 and the largest value I've seen is +179, these values are when the screen is facing down. When the roll angle exceeds the value defined in `.roll_up` or `.roll_down` the library will inject an up or down d-pad button press. When the roll has moved back by `roll_hysteresis`, the library will inject a release of the d-pad button.
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### Yaw
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Positive yaw is when the device is rotated counter-clockwise. Negative yaw is when the device is rotated clockwise. The value is in degrees with the range -180 to 180. The smallest value I've seen is -179 and the largest value I've seen is +179, when the device is rotated 180 degrees from the initial orientation when it was calibrated. Yaw is not used in this library.
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## Configuration
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The `ImuControllerConfig` structure is used to configure the IMU Controller. The default configuration is defined in `imu_controller.h` and is called `IMU_CONTROLLER_DEFAULT_CONFIG`. If your application requires specific configuration, you can create a similar entry in your application and pass it as the second parameter to `imu_controller_alloc`. The default configuration is as follows:
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```c
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const ImuControllerConfig IMU_CONTROLLER_DEFAULT_CONFIG = {
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.roll_up = 8.0f, // 8 degrees triggers an Up button press
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.roll_down = -8.0f, // -8 degrees triggers a Down button press
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.roll_hysteresis = 3.0f, // 3 degrees of movement is required to release the Up or Down button press
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.pitch_left = 20.0f, // 20 degrees triggers a Left button press
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.pitch_right = -20.0f, // -20 degrees triggers a Right button press
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.pitch_hysteresis = 5.0f, // 5 degrees of movement is required to release the Left or Right button press
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.button_state_long_ms = 300, // 300ms is the time required to trigger a long press event
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.button_state_repeat_ms = 150, // 150ms is the time required to trigger a repeat press event
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.vibro_duration = 25, // 25ms is the duration of the vibration when a button is pressed or released
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};
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```
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## Technical Details
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<img src='https://blog.flipper.net/content/images/size/w1000/2024/02/motion_tracking_sensor_connected_to_video_game_module_and_flipper_zero.jpg' width='50%'/>
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The above image from https://blog.flipper.net/introducing-video-game-module-powered-by-raspberry-pi/ and shows the two ways the Motion-tracking sensor is connected.
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The [Video Game Module](https://blog.flipper.net/introducing-video-game-module-powered-by-raspberry-pi/) has a [TDK ICM-42688-P](https://invensense.tdk.com/wp-content/uploads/2020/04/ds-000347_icm-42688-p-datasheet.pdf), which is a 6-axis MEMS motion-tracking sensor (IMU) the combines a 3-axis gyroscope and a 3-axis accelerometer. The IMU sensor uses the SPI protocol (pins 2-6 on the Flipper Zero) to communicate directly to the Flipper Zero.
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The [Video Game Engine](https://github.com/flipperdevices/flipperzero-game-engine) provides a [imu.h](https://github.com/flipperdevices/flipperzero-game-engine/blob/dev/sensors/imu.h) file, giving us access to the last known pitch, roll and yaw values. The data provided has increased accuracy since the code uses a Madgwick AHRS algorithm. See [Madgwick's paper](https://github.com/xioTechnologies/Fusion?tab=readme-ov-file#ahrs-algorithm) for more information.
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When you call `imu_controller_alloc`, it invokes `imu_alloc()` causing intial calibration data to be is calculated. For best results, it is recommended that the device **does not move** during calibration and that the orientation is similar to the orientation it will be used in. If needed, your application can invoke `imu_controller_recalibrate` to recalibrate the IMU sensor.
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## Adding the Library to your Project
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### Step 1: Add the Flipper Zero Game Engine Library as a Submodule
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In the root of your project, where your `application.fam` file is located, you can add the Flipper Zero Game Engine as a submodule. To add the library to your project, use the following command:
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```cmd
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git submodule add https://github.com/flipperdevices/flipperzero-game-engine.git engine
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```
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### Step 2: Copy the imu_controller.h and imu_controller.c files to your project
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Copy the `imu_controller.h` and `imu_controller.c` files from this repository to your project. It is assumed these files are in the same directory as where you ran the git submodule command.
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### Step 3: Update your main program to include the IMU Controller
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At the top of your main program, include the `imu_controller.h` file, typically after the other includes. For example:
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```c
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#include "imu_controller.h"
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```
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### Step 4: Create a queue method to inject Input Events
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Typically your application will have a message queue to handle input events. You can find `furi_message_queue_put` commands and see what kind of event your application expects. There are two common patterns... either using an `InputEvent` or a custom named event (like `PluginEvent`, `SnakeEvent`, etc.)
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```c
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static void doom_imu_queue(FuriMessageQueue* event_queue, InputType type, InputKey key) {
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InputEvent input_event = {.type = type, .key = key};
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PluginEvent event = {.type = EventTypeKey, .input = input_event};
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furi_message_queue_put(event_queue, &event, 0);
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}
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```
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or
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```c
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static void game_imu_queue(FuriMessageQueue* event_queue, InputType type, InputKey key) {
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InputEvent input_event = {.type = type, .key = key};
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furi_message_queue_put(event_queue, &input_event, 0);
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}
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```
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### Step 5: Create and Start the IMU Controller
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In your main application entry point, create and start the IMU Controller. For example:
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```c
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ImuController* imu_controller =
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imu_controller_alloc(event_queue, &IMU_CONTROLLER_DEFAULT_CONFIG, doom_imu_queue);
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imu_controller_start(imu_controller);
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```
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### Step 6: Free the IMU Controller
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In your main application entry point, free the controller when the application is done. For example:
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```c
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imu_controller_free(imu_controller);
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```
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## Support
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The best way to get support is to join the Flipper Zero Tutorials (Unofficial) Discord community. Here is a [Discord invite](https://discord.com/invite/NsjCvqwPAd) to join my `Flipper Zero Tutorials (Unofficial)` community.
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If you want to support my work, you can donate via [https://ko-fi.com/codeallnight](https://ko-fi.com/codeallnight) or you can [buy a FlipBoard](https://www.tindie.com/products/makeithackin/flipboard-macropad-keyboard-for-flipper-zero/) from HackItHackin with software & tutorials from me (@CodeAllNight).
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vgm/imu_controller/flipper-pitch-roll-yaw.png
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vgm/imu_controller/flipper-pitch-roll-yaw.png
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vgm/imu_controller/imu_controller.c
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#include <furi.h>
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#include <furi_hal.h>
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#include <input/input.h>
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#include <sys/time.h>
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#include "engine/sensors/imu.h"
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#include "imu_controller.h"
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// Number of readings per second for the IMU
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#define BUTTON_READINGS_PER_SECOND 20
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// Default configuration for the IMU controller
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const ImuControllerConfig IMU_CONTROLLER_DEFAULT_CONFIG = {
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.roll_up = 8.0f, // 8 degrees triggers an Up button press
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.roll_down = -8.0f, // -8 degrees triggers a Down button press
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.roll_hysteresis = 3.0f, // 3 degrees of movement is required to release the Up or Down button press
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.pitch_left = 20.0f, // 20 degrees triggers a Left button press
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.pitch_right = -20.0f, // -20 degrees triggers a Right button press
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.pitch_hysteresis = 5.0f, // 5 degrees of movement is required to release the Left or Right button press
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.button_state_long_ms = 300, // 300ms is the time required to trigger a long press event
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.button_state_repeat_ms = 150, // 150ms is the time required to trigger a repeat press event
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.vibro_duration = 25, // 25ms is the duration of the vibration when a button is pressed or released
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};
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// Current virtual button state
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typedef enum {
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ButtonStateReleased = 0,
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ButtonStatePressed,
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ButtonStateLongPressed,
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ButtonStateRepeatPressed,
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} ButtonState;
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// IMU controller structure
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struct ImuController {
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const ImuControllerConfig* config;
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ImuControllerQueue queue_message;
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FuriMutex* mutex;
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Imu* imu;
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FuriMessageQueue* event_queue;
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FuriTimer* timer;
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uint32_t button_press_tick[InputKeyMAX];
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ButtonState button_state[InputKeyMAX];
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};
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/**
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* @brief Release a virtual button
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* @param controller The controller
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* @param key The key
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*/
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static void imu_controller_release(ImuController* controller, InputKey key) {
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// If the button was already released, ignore the request.
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if(controller->button_state[key] == ButtonStateReleased) {
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return;
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}
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if(controller->config->vibro_duration) {
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furi_hal_vibro_on(true);
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}
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// If the button was pressed, send a InputTypeShort event
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// (otherwise we already sent a InputTypeLong event).
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if(controller->button_state[key] == ButtonStatePressed) {
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controller->queue_message(controller->event_queue, InputTypeShort, key);
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}
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// Send a InputTypeRelease event
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controller->queue_message(controller->event_queue, InputTypeRelease, key);
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// Reset the button state
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controller->button_press_tick[key] = 0;
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controller->button_state[key] = ButtonStateReleased;
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if(controller->config->vibro_duration) {
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furi_delay_ms(controller->config->vibro_duration);
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furi_hal_vibro_on(false);
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}
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}
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/**
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* @brief Press a virtual button
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* @param controller The controller
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* @param key The key
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*/
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static void imu_controller_press(ImuController* controller, InputKey key) {
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if(controller->button_press_tick[key]) {
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// If the button was already pressed, check if we need to send a InputTypeLong or InputTypeRepeat event.
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uint32_t duration = furi_get_tick() - controller->button_press_tick[key];
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// If the button was pressed for a long time, send a InputTypeLong event.
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if(controller->config->button_state_long_ms &&
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(controller->button_state[key] == ButtonStatePressed &&
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duration >= controller->config->button_state_long_ms)) {
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// Send a InputTypeLong event
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controller->queue_message(controller->event_queue, InputTypeLong, key);
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// Update the button state
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controller->button_press_tick[key] = furi_get_tick();
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controller->button_state[key] = ButtonStateLongPressed;
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}
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// If we already sent a InputTypeLong, check if we need to send a InputTypeRepeat event.
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else if(
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controller->config->button_state_repeat_ms &&
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(controller->button_state[key] >= ButtonStateLongPressed &&
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duration > controller->config->button_state_repeat_ms)) {
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// Send a InputTypeRepeat event
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controller->queue_message(controller->event_queue, InputTypeRepeat, key);
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// Update the button state
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controller->button_press_tick[key] = furi_get_tick();
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controller->button_state[key] = ButtonStateRepeatPressed;
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}
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return;
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}
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if(controller->config->vibro_duration) {
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furi_hal_vibro_on(true);
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}
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// Release the button in the opposite direction
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switch(key) {
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case InputKeyUp:
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imu_controller_release(controller, InputKeyDown);
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break;
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case InputKeyDown:
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imu_controller_release(controller, InputKeyUp);
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break;
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case InputKeyLeft:
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imu_controller_release(controller, InputKeyRight);
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break;
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case InputKeyRight:
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imu_controller_release(controller, InputKeyLeft);
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break;
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default:
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break;
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}
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// Send a InputTypePress event
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controller->queue_message(controller->event_queue, InputTypePress, key);
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// Update the button state
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controller->button_press_tick[key] = furi_get_tick();
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controller->button_state[key] = ButtonStatePressed;
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if(controller->config->vibro_duration) {
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furi_delay_ms(controller->config->vibro_duration);
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furi_hal_vibro_on(false);
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}
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}
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/**
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* @brief IMU controller callback
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* @details This function is called periodically to check the IMU orientation and send virtual button events.
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* @param context The context
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*/
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static void imu_controller_callback(void* context) {
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ImuController* imu_controller = (ImuController*)context;
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// Acquire the mutex to access the IMU
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furi_mutex_acquire(imu_controller->mutex, FuriWaitForever);
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// Get the roll (up/down)
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float roll = imu_roll_get(imu_controller->imu);
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if(roll > imu_controller->config->roll_up) {
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imu_controller_press(imu_controller, InputKeyUp);
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} else if(roll < imu_controller->config->roll_down) {
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imu_controller_press(imu_controller, InputKeyDown);
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}
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// If the roll is outside the hysteresis range, release the up and down buttons
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else if(
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roll < imu_controller->config->roll_up - imu_controller->config->roll_hysteresis &&
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roll > imu_controller->config->roll_down + imu_controller->config->roll_hysteresis) {
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imu_controller_release(imu_controller, InputKeyUp);
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imu_controller_release(imu_controller, InputKeyDown);
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}
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// Get the pitch (left/right)
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float pitch = imu_pitch_get(imu_controller->imu);
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if(pitch > imu_controller->config->pitch_left) {
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imu_controller_press(imu_controller, InputKeyLeft);
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} else if(pitch < imu_controller->config->pitch_right) {
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imu_controller_press(imu_controller, InputKeyRight);
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}
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// If the pitch is outside the hysteresis range, release the left and right buttons
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else if(
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pitch < imu_controller->config->pitch_left - imu_controller->config->pitch_hysteresis &&
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pitch > imu_controller->config->pitch_right + imu_controller->config->pitch_hysteresis) {
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imu_controller_release(imu_controller, InputKeyLeft);
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imu_controller_release(imu_controller, InputKeyRight);
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}
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// Release the mutex, so other threads can access the IMU
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furi_mutex_release(imu_controller->mutex);
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}
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/**
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* @brief Release all virtual buttons
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* @param context The context
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*/
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static void imu_controller_release_buttons(void* context) {
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ImuController* imu_controller = (ImuController*)context;
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imu_controller_release(imu_controller, InputKeyUp);
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imu_controller_release(imu_controller, InputKeyDown);
|
||||||
|
imu_controller_release(imu_controller, InputKeyLeft);
|
||||||
|
imu_controller_release(imu_controller, InputKeyRight);
|
||||||
|
}
|
||||||
|
|
||||||
|
/**
|
||||||
|
* @brief Allocate a new IMU controller
|
||||||
|
* @param event_queue The event queue
|
||||||
|
* @param config The configuration for pitch and roll
|
||||||
|
* @param queue_message A callback to queue input messages
|
||||||
|
* @return The new IMU controller
|
||||||
|
*/
|
||||||
|
ImuController* imu_controller_alloc(
|
||||||
|
FuriMessageQueue* event_queue,
|
||||||
|
const ImuControllerConfig* config,
|
||||||
|
ImuControllerQueue queue_message) {
|
||||||
|
ImuController* imu_controller = malloc(sizeof(ImuController));
|
||||||
|
imu_controller->mutex = furi_mutex_alloc(FuriMutexTypeNormal);
|
||||||
|
imu_controller->queue_message = queue_message;
|
||||||
|
imu_controller->imu = imu_alloc();
|
||||||
|
imu_controller->event_queue = event_queue;
|
||||||
|
imu_controller->config = config;
|
||||||
|
imu_controller->timer =
|
||||||
|
furi_timer_alloc(imu_controller_callback, FuriTimerTypePeriodic, imu_controller);
|
||||||
|
|
||||||
|
return imu_controller;
|
||||||
|
}
|
||||||
|
|
||||||
|
/**
|
||||||
|
* @brief Free the IMU controller
|
||||||
|
* @param imu_controller The IMU controller
|
||||||
|
*/
|
||||||
|
void imu_controller_free(ImuController* imu_controller) {
|
||||||
|
furi_timer_stop(imu_controller->timer);
|
||||||
|
furi_timer_free(imu_controller->timer);
|
||||||
|
imu_controller_release_buttons(imu_controller);
|
||||||
|
imu_free(imu_controller->imu);
|
||||||
|
furi_mutex_free(imu_controller->mutex);
|
||||||
|
free(imu_controller);
|
||||||
|
}
|
||||||
|
|
||||||
|
/**
|
||||||
|
* @brief Start the IMU controller
|
||||||
|
* @details This function starts the IMU controller, which will periodically check the IMU orientation and send virtual button events.
|
||||||
|
* @param imu_controller The IMU controller
|
||||||
|
*/
|
||||||
|
void imu_controller_start(ImuController* imu_controller) {
|
||||||
|
furi_timer_start(
|
||||||
|
imu_controller->timer, furi_kernel_get_tick_frequency() / BUTTON_READINGS_PER_SECOND);
|
||||||
|
}
|
||||||
|
|
||||||
|
/**
|
||||||
|
* @brief Stop the IMU controller
|
||||||
|
* @details This function stops the IMU controller, which will stop checking the IMU orientation and sending virtual button events.
|
||||||
|
* @param imu_controller The IMU controller
|
||||||
|
*/
|
||||||
|
void imu_controller_stop(ImuController* imu_controller) {
|
||||||
|
furi_timer_stop(imu_controller->timer);
|
||||||
|
}
|
||||||
|
|
||||||
|
/**
|
||||||
|
* @brief Recalibrate the IMU controller
|
||||||
|
* @details This function stops the IMU controller, recalibrates the IMU and starts the IMU controller again.
|
||||||
|
* @param imu_controller The IMU controller
|
||||||
|
*/
|
||||||
|
void imu_controller_recalibrate(ImuController* imu_controller) {
|
||||||
|
imu_controller_stop(imu_controller);
|
||||||
|
furi_mutex_acquire(imu_controller->mutex, FuriWaitForever);
|
||||||
|
imu_free(imu_controller->imu);
|
||||||
|
imu_controller->imu = imu_alloc();
|
||||||
|
furi_mutex_release(imu_controller->mutex);
|
||||||
|
imu_controller_start(imu_controller);
|
||||||
|
}
|
86
vgm/imu_controller/imu_controller.h
Normal file
86
vgm/imu_controller/imu_controller.h
Normal file
@ -0,0 +1,86 @@
|
|||||||
|
#pragma once
|
||||||
|
|
||||||
|
#include <furi.h>
|
||||||
|
|
||||||
|
typedef struct ImuController ImuController;
|
||||||
|
|
||||||
|
/**
|
||||||
|
* @brief The configuration for pitch and roll for the IMU controller
|
||||||
|
*/
|
||||||
|
typedef struct ImuControllerConfig {
|
||||||
|
/// @brief The degrees of roll for a InputKeyUp event
|
||||||
|
float roll_up;
|
||||||
|
|
||||||
|
/// @brief The degrees of roll for a InputKeyDown event
|
||||||
|
float roll_down;
|
||||||
|
|
||||||
|
/// @brief The hysteresis for the roll before releasing the InputKeyUp and InputKeyDown events
|
||||||
|
float roll_hysteresis;
|
||||||
|
|
||||||
|
/// @brief The degrees of pitch for a InputKeyLeft event
|
||||||
|
float pitch_left;
|
||||||
|
|
||||||
|
/// @brief The degrees of pitch for a InputKeyRight event
|
||||||
|
float pitch_right;
|
||||||
|
|
||||||
|
/// @brief The hysteresis for the pitch before releasing the InputKeyLeft and InputKeyRight events
|
||||||
|
float pitch_hysteresis;
|
||||||
|
|
||||||
|
/// @brief Duration in milliseconds for a InputTypeLong event (300 ms recommended)
|
||||||
|
uint32_t button_state_long_ms;
|
||||||
|
|
||||||
|
/// @brief Duration in milliseconds for a InputTypeRepeat event (150 ms recommended)
|
||||||
|
uint32_t button_state_repeat_ms;
|
||||||
|
|
||||||
|
/// @brief Number of millisecond for vibration on press and release
|
||||||
|
uint8_t vibro_duration;
|
||||||
|
} ImuControllerConfig;
|
||||||
|
|
||||||
|
extern const ImuControllerConfig IMU_CONTROLLER_DEFAULT_CONFIG;
|
||||||
|
|
||||||
|
/**
|
||||||
|
* @brief A callback to queue input messages from the IMU controller to the event queue
|
||||||
|
* @param event_queue The event queue
|
||||||
|
* @param type The input type
|
||||||
|
* @param key The input key
|
||||||
|
*/
|
||||||
|
typedef void (*ImuControllerQueue)(FuriMessageQueue* event_queue, InputType type, InputKey key);
|
||||||
|
|
||||||
|
/**
|
||||||
|
* @brief Allocate a new IMU controller
|
||||||
|
* @param event_queue The event queue
|
||||||
|
* @param config The configuration for pitch and roll
|
||||||
|
* @param queue_message A callback to queue input messages
|
||||||
|
* @return The new IMU controller
|
||||||
|
*/
|
||||||
|
ImuController* imu_controller_alloc(
|
||||||
|
FuriMessageQueue* event_queue,
|
||||||
|
const ImuControllerConfig* config,
|
||||||
|
ImuControllerQueue queue_message);
|
||||||
|
|
||||||
|
/**
|
||||||
|
* @brief Free the IMU controller
|
||||||
|
* @param imu_controller The IMU controller
|
||||||
|
*/
|
||||||
|
void imu_controller_free(ImuController* imu_controller);
|
||||||
|
|
||||||
|
/**
|
||||||
|
* @brief Start the IMU controller
|
||||||
|
* @details This function starts the IMU controller, which will periodically check the IMU orientation and send virtual button events.
|
||||||
|
* @param imu_controller The IMU controller
|
||||||
|
*/
|
||||||
|
void imu_controller_start(ImuController* imu_controller);
|
||||||
|
|
||||||
|
/**
|
||||||
|
* @brief Stop the IMU controller
|
||||||
|
* @details This function stops the IMU controller, which will stop checking the IMU orientation and sending virtual button events.
|
||||||
|
* @param imu_controller The IMU controller
|
||||||
|
*/
|
||||||
|
void imu_controller_stop(ImuController* imu_controller);
|
||||||
|
|
||||||
|
/**
|
||||||
|
* @brief Recalibrate the IMU controller
|
||||||
|
* @details This function stops the IMU controller, recalibrates the IMU and starts the IMU controller again.
|
||||||
|
* @param imu_controller The IMU controller
|
||||||
|
*/
|
||||||
|
void imu_controller_recalibrate(ImuController* imu_controller);
|
Loading…
Reference in New Issue
Block a user