#pragma once
extern "C"
{
#include "freertos/FreeRTOS.h"
#include "freertos/task.h"
#include "driver/gpio.h"
#include "driver/adc.h"
#include "esp_log.h"
#include "esp_err.h"
}
#include <cmath>
#include "motorctl.hpp" //for deklaration of motorCommands_t struct
//======================================
//========= evaluated Joystick =========
//======================================
//class which evaluates a joystick with 2 analog signals
// - scales the adc input to coordinates with detailed tolerances
// - calculates angle and radius
// - defines an enum with position information
//--------------------------------------------
//---- struct, enum, variable deklarations ---
//--------------------------------------------
//struct with all required configuration parameters
typedef struct joystick_config_t {
//analog inputs the axis are connected
adc1_channel_t adc_x;
adc1_channel_t adc_y;
//range around center-threshold of each axis the coordinates stays at 0 (adc value 0-4095)
int tolerance_zero;
//threshold the coordinate snaps to -1 or 1 before configured "_max" or "_min" threshold (mechanical end) is reached (adc value 0-4095)
int tolerance_end;
//threshold the radius jumps to 1 before the stick is at max radius (range 0-1)
float tolerance_radius;
//min and max adc values of each axis
int x_min;
int x_max;
int y_min;
int y_max;
//invert adc measurement (e.g. when moving joystick up results in a decreasing voltage)
bool x_inverted;
bool y_inverted;
} joystick_config_t;
//enum for describing the position of the joystick
enum class joystickPos_t {CENTER, Y_AXIS, X_AXIS, TOP_RIGHT, TOP_LEFT, BOTTOM_LEFT, BOTTOM_RIGHT};
extern const char* joystickPosStr[7];
//struct with current data of the joystick
typedef struct joystickData_t {
joystickPos_t position;
float x;
float y;
float radius;
float angle;
} joystickData_t;
//------------------------------------
//----- evaluatedJoystick class -----
//------------------------------------
class evaluatedJoystick {
public:
//--- constructor ---
evaluatedJoystick(joystick_config_t config_f);
//--- functions ---
joystickData_t getData(); //read joystick, calculate values and return the data in a struct
void defineCenter(); //define joystick center from current position
private:
//--- functions ---
//initialize adc inputs, define center
void init();
//read adc while making multiple samples with option to invert the result
int readAdc(adc1_channel_t adc_channel, bool inverted = false);
//read input voltage and scale to value from -1 to 1 using the given thresholds and tolerances
float getCoordinate(adc1_channel_t adc_channel, bool inverted, int min, int max, int center, int tolerance_zero, int tolerance_end);
//--- variables ---
joystick_config_t config;
int x_center;
int y_center;
joystickData_t data;
float x;
float y;
};
//============================================
//========= joystick_CommandsDriving =========
//============================================
//function that generates commands for both motors from the joystick data
//motorCommands_t joystick_generateCommandsDriving(evaluatedJoystick joystick);
motorCommands_t joystick_generateCommandsDriving(joystickData_t data );
//============================================
//========= joystick_CommandsDriving =========
//============================================
//function that defines and returns enum joystickPos from x and y coordinates
joystickPos_t joystick_evaluatePosition(float x, float y);