pimoroni-pico/drivers/motor/motor.cpp

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#include "motor.hpp"
#include "pwm.hpp"
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namespace motor {
Motor::Motor(const MotorPins &pins, float freq, DecayMode mode)
: pins(pins), pwm_frequency(freq), motor_decay_mode(mode) {
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}
Motor::~Motor() {
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gpio_set_function(pins.positive, GPIO_FUNC_NULL);
gpio_set_function(pins.negative, GPIO_FUNC_NULL);
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}
bool Motor::init() {
bool success = false;
uint16_t period; uint16_t div16;
if(pimoroni::calculate_pwm_factors(pwm_frequency, period, div16)) {
pwm_period = period;
pwm_cfg = pwm_get_default_config();
//Set the new wrap (should be 1 less than the period to get full 0 to 100%)
pwm_config_set_wrap(&pwm_cfg, period - 1);
//Apply the divider
pwm_config_set_clkdiv(&pwm_cfg, (float)div16 / 16.0f);
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pwm_init(pwm_gpio_to_slice_num(pins.positive), &pwm_cfg, true);
gpio_set_function(pins.positive, GPIO_FUNC_PWM);
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pwm_init(pwm_gpio_to_slice_num(pins.negative), &pwm_cfg, true);
gpio_set_function(pins.negative, GPIO_FUNC_PWM);
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update_pwm();
success = true;
}
return success;
}
float Motor::get_speed() {
return motor_speed;
}
void Motor::set_speed(float speed) {
motor_speed = MIN(MAX(speed, -1.0f), 1.0f);
update_pwm();
}
float Motor::get_frequency() {
return pwm_frequency;
}
bool Motor::set_frequency(float freq) {
bool success = false;
//Calculate a suitable pwm wrap period for this frequency
uint16_t period; uint16_t div16;
if(pimoroni::calculate_pwm_factors(freq, period, div16)) {
//Record if the new period will be larger or smaller.
//This is used to apply new pwm values either before or after the wrap is applied,
//to avoid momentary blips in PWM output on SLOW_DECAY
bool pre_update_pwm = (period > pwm_period);
pwm_period = period;
pwm_frequency = freq;
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uint pos_num = pwm_gpio_to_slice_num(pins.positive);
uint neg_num = pwm_gpio_to_slice_num(pins.negative);
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//Apply the new divider
uint8_t div = div16 >> 4;
uint8_t mod = div16 % 16;
pwm_set_clkdiv_int_frac(pos_num, div, mod);
if(neg_num != pos_num) {
pwm_set_clkdiv_int_frac(neg_num, div, mod);
}
//If the the period is larger, update the pwm before setting the new wraps
if(pre_update_pwm)
update_pwm();
//Set the new wrap (should be 1 less than the period to get full 0 to 100%)
pwm_set_wrap(pos_num, pwm_period - 1);
if(neg_num != pos_num) {
pwm_set_wrap(neg_num, pwm_period - 1);
}
//If the the period is smaller, update the pwm after setting the new wraps
if(!pre_update_pwm)
update_pwm();
success = true;
}
return success;
}
Motor::DecayMode Motor::get_decay_mode() {
return motor_decay_mode;
}
void Motor::set_decay_mode(Motor::DecayMode mode) {
motor_decay_mode = mode;
update_pwm();
}
void Motor::stop() {
motor_speed = 0.0f;
update_pwm();
}
void Motor::disable() {
motor_speed = 0.0f;
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pwm_set_gpio_level(pins.positive, 0);
pwm_set_gpio_level(pins.negative, 0);
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}
void Motor::update_pwm() {
int32_t signed_duty_cycle = (int32_t)(motor_speed * (float)pwm_period);
switch(motor_decay_mode) {
case SLOW_DECAY: //aka 'Braking'
if(signed_duty_cycle >= 0) {
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pwm_set_gpio_level(pins.positive, pwm_period);
pwm_set_gpio_level(pins.negative, pwm_period - signed_duty_cycle);
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}
else {
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pwm_set_gpio_level(pins.positive, pwm_period + signed_duty_cycle);
pwm_set_gpio_level(pins.negative, pwm_period);
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}
break;
case FAST_DECAY: //aka 'Coasting'
default:
if(signed_duty_cycle >= 0) {
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pwm_set_gpio_level(pins.positive, signed_duty_cycle);
pwm_set_gpio_level(pins.negative, 0);
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}
else {
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pwm_set_gpio_level(pins.positive, 0);
pwm_set_gpio_level(pins.negative, 0 - signed_duty_cycle);
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}
break;
}
}
};