use core::num::Float; use board; use pid; const PID_PARAMETERS: pid::Parameters = pid::Parameters { kp: 0.035, ki: 0.025, kd: 0.0, output_min: 0.0, output_max: 30.0, integral_min: -700.0, integral_max: 700.0 }; pub struct Controller { pid: pid::Controller, target: f32, last_av: Option } #[derive(Clone, Copy)] pub struct ControllerStatus { pub ready: bool, pub av: Option } impl Controller { pub const fn new() -> Controller { Controller { pid: pid::Controller::new(PID_PARAMETERS), target: 0.0, last_av: None } } pub fn adc_input(&mut self, av_sample: u16) { let av = av_sample as f32/board::AV_ADC_GAIN; self.last_av = Some(av); let hv_pwm_duty = self.pid.update(av); board::set_hv_pwm(hv_pwm_duty as u16) } pub fn set_target(&mut self, volts: f32) { self.target = 0.0; self.pid.set_target(volts); } fn ready(&self) -> bool { match self.last_av { None => false, Some(last_av) => (last_av - self.target).abs() < 1.0 } } pub fn reset(&mut self) { self.pid.reset(); board::set_hv_pwm(0); } pub fn get_status(&self) -> ControllerStatus { ControllerStatus { ready: self.ready(), av: self.last_av } } } impl ControllerStatus { pub fn debug_print(&self) { println!("anode rdy: {}", self.ready); if self.av.is_some() { println!("voltage: {}V", self.av.unwrap()); } } }