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use crate::{device::InputDevice, Scalar}; use std::collections::HashMap; #[derive(Debug, Clone, Copy, Eq, PartialEq)] pub enum TriggerState { Idle, Pressed, Hold, Released, } impl TriggerState { #[inline] pub fn is_on(self) -> bool { self == TriggerState::Pressed || self == TriggerState::Hold } #[inline] pub fn is_off(self) -> bool { !self.is_on() } } #[derive(Default)] pub struct InputController { devices: HashMap<String, Box<InputDevice>>, mapping_axes: HashMap<String, (String, String)>, mapping_triggers: HashMap<String, (String, String)>, axes: HashMap<String, Scalar>, triggers: HashMap<String, TriggerState>, } impl InputController { pub fn new() -> Self { Self::default() } pub fn register<D>(&mut self, mut device: D) where D: InputDevice + 'static, { device.on_register(); self.devices .insert(device.name().to_owned(), Box::new(device)); } pub fn unregister(&mut self, name: &str) -> Option<Box<dyn InputDevice>> { if let Some(mut device) = self.devices.remove(name) { device.on_unregister(); Some(device) } else { None } } pub fn map_axis(&mut self, name_from: &str, device: &str, name_to: &str) { self.mapping_axes.insert( name_from.to_owned(), (device.to_owned(), name_to.to_owned()), ); } pub fn unmap_axis(&mut self, name: &str) { self.mapping_axes.remove(name); } pub fn map_trigger(&mut self, name_from: &str, device: &str, name_to: &str) { self.mapping_triggers.insert( name_from.to_owned(), (device.to_owned(), name_to.to_owned()), ); } pub fn unmap_trigger(&mut self, name: &str) { self.mapping_triggers.remove(name); } pub fn axis(&self, name: &str) -> Option<Scalar> { self.axes.get(name).cloned() } pub fn axis_or_default(&self, name: &str) -> Scalar { self.axis(name).unwrap_or(0.0) } pub fn set_axis(&mut self, name: &str, value: Scalar) { self.axes.insert(name.to_owned(), value); } pub fn trigger(&self, name: &str) -> Option<TriggerState> { self.triggers.get(name).cloned() } pub fn trigger_or_default(&self, name: &str) -> TriggerState { self.trigger(name).unwrap_or(TriggerState::Idle) } pub fn set_trigger(&mut self, name: &str, value: TriggerState) { self.triggers.insert(name.to_owned(), value); } pub fn process(&mut self) { for device in self.devices.values_mut() { device.process(); } self.axes.clear(); self.triggers.clear(); for (name_from, (dev, name_to)) in &self.mapping_axes { if let Some(device) = self.devices.get(dev) { if let Some(value) = device.query_axis(name_to) { self.axes.insert(name_from.to_owned(), value); } } } for (name_from, (dev, name_to)) in &self.mapping_triggers { if let Some(device) = self.devices.get(dev) { if let Some(value) = device.query_trigger(name_to) { let prev = self.triggers.get(name_from).unwrap_or(&TriggerState::Idle); match (prev, value) { (TriggerState::Idle, true) | (TriggerState::Released, true) => { self.triggers .insert(name_from.to_owned(), TriggerState::Pressed); } (TriggerState::Pressed, true) | (TriggerState::Pressed, false) => { self.triggers .insert(name_from.to_owned(), TriggerState::Hold); } (TriggerState::Hold, false) => { self.triggers .insert(name_from.to_owned(), TriggerState::Released); } (TriggerState::Released, false) => { self.triggers .insert(name_from.to_owned(), TriggerState::Idle); } _ => {} } } } } } }