#pragma once #include "pico/stdlib.h" namespace servo { enum CalibrationType { ANGULAR = 0, LINEAR, CONTINUOUS }; class Calibration { //-------------------------------------------------- // Constants //-------------------------------------------------- public: static constexpr float DEFAULT_MIN_PULSE = 500.0f; // in microseconds static constexpr float DEFAULT_MID_PULSE = 1500.0f; // in microseconds static constexpr float DEFAULT_MAX_PULSE = 2500.0f; // in microseconds private: static constexpr float LOWER_HARD_LIMIT = 400.0f; // The minimum microsecond pulse to send static constexpr float UPPER_HARD_LIMIT = 2600.0f; // The maximum microsecond pulse to send //-------------------------------------------------- // Substructures //-------------------------------------------------- public: struct Pair { //-------------------------------------------------- // Constructors/Destructor //-------------------------------------------------- Pair(); Pair(float pulse, float value); //-------------------------------------------------- // Variables //-------------------------------------------------- float pulse; float value; }; //-------------------------------------------------- // Constructors/Destructor //-------------------------------------------------- public: Calibration(); Calibration(CalibrationType default_type); Calibration(const Calibration &other); virtual ~Calibration(); //-------------------------------------------------- // Operators //-------------------------------------------------- public: Calibration &operator=(const Calibration &other); Pair &operator[](uint8_t index); const Pair &operator[](uint8_t index) const; //-------------------------------------------------- // Methods //-------------------------------------------------- public: void apply_blank_pairs(uint size); void apply_two_pairs(float min_pulse, float max_pulse, float min_value, float max_value); void apply_three_pairs(float min_pulse, float mid_pulse, float max_pulse, float min_value, float mid_value, float max_value); void apply_uniform_pairs(uint size, float min_pulse, float max_pulse, float min_value, float max_value); void apply_default_pairs(CalibrationType default_type); uint size() const; Pair &pair(uint8_t index); // Ensure the pairs are assigned in ascending value order Pair &first(); Pair &last(); const Pair &pair(uint8_t index) const; // Ensure the pairs are assigned in ascending value order const Pair &first() const; const Pair &last() const; bool has_lower_limit() const; bool has_upper_limit() const; void limit_to_calibration(bool lower, bool upper); bool value_to_pulse(float value, float &pulse_out, float &value_out) const; bool pulse_to_value(float pulse, float &value_out, float &pulse_out) const; static float map_float(float in, float in_min, float in_max, float out_min, float out_max); //-------------------------------------------------- // Variables //-------------------------------------------------- private: Pair* calibration; uint calibration_size; bool limit_lower; bool limit_upper; }; }