use crate::{AutomationManager, SignalSender};
use rill_core::traits::{
node::AudioNode,
param::ParamValue,
AudioError,
};
use rill_core::signal::{SignalDispatcher, AdvancedSignalDispatcher},
pub struct RillSignalSender {
dispatcher: std::sync::Arc<std::sync::Mutex<Option<SignalDispatcher>>>,
}
impl SignalSender for RillSignalSender {
fn send_parameter_changed(&self, node_id: &str, param_id: &str, value: f32) {
if let Some(dispatcher) = self.dispatcher.lock().unwrap().as_ref() {
}
}
}
impl RillSignalSender {
pub fn new() -> Self {
Self {
dispatcher: std::sync::Arc::new(std::sync::Mutex::new(None)),
}
}
pub fn connect(&self, dispatcher: SignalDispatcher) {
*self.dispatcher.lock().unwrap() = Some(dispatcher);
}
}
pub struct AutomationBuilder {
manager: AutomationManager,
signal_sender: std::sync::Arc<RillSignalSender>,
}
impl AutomationBuilder {
pub fn new(sample_rate: f64) -> Self {
let signal_sender = std::sync::Arc::new(RillSignalSender::new());
Self {
manager: AutomationManager::new(sample_rate)
.with_signal_sender(signal_sender.clone()),
signal_sender,
}
}
pub fn create_automated_node<N: AudioNode + 'static>(
&self,
node: N,
sample_rate: f32,
) -> crate::AutomatedNode<N> {
let mut automated_node = crate::AutomatedNode::new(node, sample_rate);
automated_node
}
pub fn get_signal_sender(&self) -> std::sync::Arc<RillSignalSender> {
self.signal_sender.clone()
}
}
pub struct AutomationRegistry {
automaton_types: std::collections::HashMap<String, AutomatonType>,
}
#[derive(Debug, Clone)]
pub struct AutomatonType {
pub name: String,
pub description: String,
pub default_params: Vec<AutomatonParam>,
pub create_fn: Box<dyn Fn() -> Box<dyn crate::Automaton<Time = f64, Context = crate::AutomationContext>>>,
}
#[derive(Debug, Clone)]
pub struct AutomatonParam {
pub name: String,
pub default_value: f64,
pub min: Option<f64>,
pub max: Option<f64>,
pub step: Option<f64>,
}
impl AutomationRegistry {
pub fn new() -> Self {
let mut registry = Self {
automaton_types: std::collections::HashMap::new(),
};
registry.register_lfo();
registry
}
fn register_lfo(&mut self) {
self.automaton_types.insert("lfo".to_string(), AutomatonType {
name: "LFO".to_string(),
description: "Low Frequency Oscillator".to_string(),
default_params: vec![
AutomatonParam {
name: "frequency".to_string(),
default_value: 1.0,
min: Some(0.01),
max: Some(20.0),
step: Some(0.01),
},
AutomatonParam {
name: "amplitude".to_string(),
default_value: 0.5,
min: Some(0.0),
max: Some(1.0),
step: Some(0.01),
},
],
create_fn: Box::new(|| {
Box::new(crate::LfoAutomaton {
id: 0,
frequency: 1.0,
amplitude: 0.5,
offset: 0.0,
waveform: crate::Waveform::Sine,
sync_to_clock: false,
})
}),
});
}
pub fn create_automaton(&self, type_name: &str) -> Option<Box<dyn crate::Automaton<Time = f64, Context = crate::AutomationContext>>> {
self.automaton_types.get(type_name).map(|t| (t.create_fn)())
}
}