#pragma once #include "hardware/i2c.h" #include "hardware/gpio.h" namespace pimoroni { class Nuvoton { //-------------------------------------------------- // Constants //-------------------------------------------------- private: //These values encode our desired pin function: IO, ADC, PWM //alongwide the GPIO MODE for that port and pin (section 8.1) //1st and 2nd bits encode the gpio state //3rd and 4th bits encode the IO mode (i.e. IO, PWM, ADC) //the 5th bit additionally encodes the default output state static const uint8_t PIN_MODE_IO = 0b00000; //General IO mode, IE: not ADC or PWM static const uint8_t PIN_MODE_QB = 0b00000; //Output, Quasi-Bidirectional mode static const uint8_t PIN_MODE_PP = 0b00001; //Output, Push-Pull mode static const uint8_t PIN_MODE_IN = 0b00010; //Input-only (high-impedance) static const uint8_t PIN_MODE_PU = 0b10000; //Input (with pull-up) static const uint8_t PIN_MODE_OD = 0b00011; //Output, Open-Drain mode static const uint8_t PIN_MODE_PWM = 0b00101; //PWM, Output, Push-Pull mode static const uint8_t PIN_MODE_ADC = 0b01010; //ADC, Input-only (high-impedance) public: static const uint8_t DEFAULT_I2C_ADDRESS = 0x18; static const uint8_t DEFAULT_SDA_PIN = 20; static const uint8_t DEFAULT_SCL_PIN = 21; static const uint8_t DEFAULT_INT_PIN = 22; static const uint16_t CHIP_ID = 0xE26A; static const uint8_t CHIP_VERSION = 2; static const uint8_t PIN_IN = PIN_MODE_IN; //0b00010 static const uint8_t PIN_IN_PULL_UP = PIN_MODE_PU; //0b10000 static const uint8_t PIN_IN_PU = PIN_MODE_PU; //0b10000 static const uint8_t PIN_OUT = PIN_MODE_PP; //0b00001 static const uint8_t PIN_PWM = PIN_MODE_PWM; //0b00101 static const uint8_t PIN_ADC = PIN_MODE_ADC; //0b01010 static const uint8_t NUM_PINS = 14; //-------------------------------------------------- // Subclasses //-------------------------------------------------- private: class Pin { public: //-------------------------------------------------- // Enums //-------------------------------------------------- enum IOType { TYPE_IO = 0b00, TYPE_PWM = 0b01, TYPE_ADC = 0b10, TYPE_ADC_OR_PWM = 0b11 }; //-------------------------------------------------- // Constants //-------------------------------------------------- private: //The PxM1 and PxM2 registers encode GPIO MODE //0 0 = Quasi-bidirectional //0 1 = Push-pull //1 0 = Input-only (high-impedance) //1 1 = Open-drain static const uint8_t PxM1[4]; //[reg::P0M1, reg::P1M1, -1, reg::P3M1] static const uint8_t PxM2[4]; //[reg::P0M2, reg::P1M2, -1, reg::P3M2] //The Px input register static const uint8_t Px[4]; //[reg::P0, reg::P1, -1, reg::P3] //The PxS Schmitt trigger register static const uint8_t PxS[4]; //[reg::P0S, reg::P1S, -1, reg::P3S] static const uint8_t MASK_P[4]; //[reg::INT_MASK_P0, reg::INT_MASK_P1, -1, reg::INT_MASK_P3] static const uint8_t PWML[6]; //[reg::PWM0L, reg::PWM1L, reg::PWM2L, reg::PWM3L, reg::PWM4L, reg::PWM5L] static const uint8_t PWMH[6]; //[reg::PWM0H, reg::PWM1H, reg::PWM2H, reg::PWM3H, reg::PWM4H, reg::PWM5H] //-------------------------------------------------- // Variables //-------------------------------------------------- private: const IOType type; uint8_t mode; public: const uint8_t port; const uint8_t pin; const uint8_t adc_channel; const uint8_t pwm_channel; const uint8_t reg_m1; const uint8_t reg_m2; const uint8_t reg_p; const uint8_t reg_ps; const uint8_t reg_int_mask_p; const uint8_t reg_io_pwm; const uint8_t reg_pwml; const uint8_t reg_pwmh; //-------------------------------------------------- // Constructors //-------------------------------------------------- private: Pin(uint8_t port, uint8_t pin); //Constructor for IO pin Pin(uint8_t port, uint8_t pin, uint8_t pwm_channel, uint8_t reg_iopwm); //Constructor for PWM pin Pin(uint8_t port, uint8_t pin, uint8_t adc_channel); //Constructor for ADC pin Pin(uint8_t port, uint8_t pin, uint8_t adc_channel, uint8_t pwm_channel, uint8_t reg_iopwm); //Constructor for ADC or PWM pin //-------------------------------------------------- // Methods //-------------------------------------------------- public: static Pin io(uint8_t port, uint8_t pin); //Nicer function for creating an IO pin static Pin pwm(uint8_t port, uint8_t pin, uint8_t channel, uint8_t reg_iopwm); //Nicer function for creating a PWM pin static Pin adc(uint8_t port, uint8_t pin, uint8_t channel); //Nicer function for creating an ADC pin static Pin adc_or_pwm(uint8_t port, uint8_t pin, uint8_t adc_channel, uint8_t pwm_channel, uint8_t reg_iopwm); //Nicer function for creating an ADC or PWM pin //-------------------------------------------------- IOType get_type(void); uint8_t get_mode(void); void set_mode(uint8_t mode); bool mode_supported(uint8_t mode); }; //-------------------------------------------------- // Variables //-------------------------------------------------- private: i2c_inst_t *i2c; // interface pins with our standard defaults where appropriate int8_t address = DEFAULT_I2C_ADDRESS; int8_t sda = DEFAULT_SDA_PIN; int8_t scl = DEFAULT_SCL_PIN; int8_t interrupt = DEFAULT_INT_PIN; uint32_t timeout; bool debug; float vref; int16_t encoder_offset[4];; int16_t encoder_last[4]; Pin pins[NUM_PINS]; //-------------------------------------------------- // Constructors/Destructor //-------------------------------------------------- public: Nuvoton(i2c_inst_t *i2c, uint8_t sda, uint8_t scl, uint8_t interrupt, uint8_t address = DEFAULT_I2C_ADDRESS, uint32_t timeout = 1, bool debug = false); Nuvoton(uint8_t address = DEFAULT_I2C_ADDRESS, uint32_t timeout = 1, bool debug = false); //-------------------------------------------------- // Methods //-------------------------------------------------- public: bool init(bool skip_chip_id_check = false); //-------------------------------------------------- uint16_t get_chip_id(); void set_addr(uint8_t address); float get_adc_vref(); void set_adc_vref(float vref); //-------------------------------------------------- void enable_interrupt_out(bool pin_swap = false); void disable_interrupt_out(); uint8_t get_interrupt_flag(); void clear_interrupt_flag(); bool set_pin_interrupt(uint8_t pin, bool enabled); void set_interrupt_callback(void (*callback)()); //-------------------------------------------------- void pwm_load(bool wait_for_load = true); bool pwm_loading(); void pwm_clear(bool wait_for_clear = true); bool pwm_clearing(); bool set_pwm_control(uint8_t divider); void set_pwm_period(uint16_t value, bool load = true); //-------------------------------------------------- uint8_t get_mode(uint8_t pin); void set_mode(uint8_t pin, uint8_t mode, bool schmitt_trigger = false, bool invert = false); int16_t input(uint8_t pin, uint32_t adc_timeout = 1); float input_as_voltage(uint8_t pin, uint32_t adc_timeout = 1); void output(uint8_t pin, uint16_t value, bool load = true); //-------------------------------------------------- void setup_rotary_encoder(uint8_t channel, uint8_t pinA, uint8_t pinB, uint8_t pinC = 0, bool count_microsteps = false); int16_t read_rotary_encoder(uint8_t channel); //-------------------------------------------------- private: uint8_t i2c_reg_read_uint8(uint8_t reg); void i2c_reg_write_uint8(uint8_t reg, uint8_t value); uint8_t get_bit(uint8_t reg, uint8_t bit); void set_bits(uint8_t reg, uint8_t bits); void set_bit(uint8_t reg, uint8_t bit); void clr_bits(uint8_t reg, uint8_t bits); void clr_bit(uint8_t reg, uint8_t bit); void change_bit(uint8_t reg, uint8_t bit, bool state); void wait_for_flash(); uint32_t millis(); }; }