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nih-plug/src/wrapper/state.rs

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Rust
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//! Utilities for saving a [crate::plugin::Plugin]'s state.
use serde::{Deserialize, Serialize};
use std::collections::HashMap;
use std::pin::Pin;
use std::sync::atomic::{AtomicBool, Ordering};
use crate::param::internals::ParamPtr;
use crate::param::Param;
use crate::{BufferConfig, Params};
/// A plain, unnormalized value for a parameter.
#[derive(Debug, Serialize, Deserialize)]
#[serde(rename_all = "snake_case")]
pub(crate) enum ParamValue {
F32(f32),
I32(i32),
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Bool(bool),
}
/// A plugin's state so it can be restored at a later point.
#[derive(Debug, Serialize, Deserialize)]
pub(crate) struct State {
/// The plugin's parameter values. These are stored unnormalized. This mean sthe old values will
/// be recalled when when the parameter's range gets increased. Doing so may still mess with
/// parmaeter automation though, depending on how the host impelments that.
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pub params: HashMap<String, ParamValue>,
/// Arbitrary fields that should be persisted together with the plugin's parameters. Any field
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/// on the [crate::param::internals::Params] struct that's annotated with `#[persist =
/// "stable_name"]` will be persisted this way.
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///
/// The individual fields are also serialized as JSON so they can safely be restored
/// independently of the other fields.
pub fields: HashMap<String, String>,
}
/// Serialize a plugin's state to a vector containing JSON data. This can (and should) be shared
/// across plugin formats.
pub(crate) unsafe fn serialize(
plugin_params: Pin<&dyn Params>,
param_by_hash: &HashMap<u32, ParamPtr>,
param_id_to_hash: &HashMap<&'static str, u32>,
bypass_param_id: &str,
bypass_state: &AtomicBool,
) -> serde_json::Result<Vec<u8>> {
// We'll serialize parmaeter values as a simple `string_param_id: display_value` map.
let mut params: HashMap<_, _> = param_id_to_hash
.iter()
.filter_map(|(param_id_str, hash)| {
let param_ptr = param_by_hash.get(hash)?;
Some((param_id_str, param_ptr))
})
.map(|(&param_id_str, &param_ptr)| match param_ptr {
ParamPtr::FloatParam(p) => (
param_id_str.to_string(),
ParamValue::F32((*p).plain_value()),
),
ParamPtr::IntParam(p) => (
param_id_str.to_string(),
ParamValue::I32((*p).plain_value()),
),
ParamPtr::BoolParam(p) => (
param_id_str.to_string(),
ParamValue::Bool((*p).plain_value()),
),
ParamPtr::EnumParam(p) => (
// Enums are serialized based on the active variant's index (which may not be
// the same as the discriminator)
param_id_str.to_string(),
ParamValue::I32((*p).plain_value()),
),
})
.collect();
// Don't forget about the bypass parameter
params.insert(
bypass_param_id.to_string(),
ParamValue::Bool(bypass_state.load(Ordering::SeqCst)),
);
// The plugin can also persist arbitrary fields alongside its parameters. This is useful for
// storing things like sample data.
let fields = plugin_params.serialize_fields();
let plugin_state = State { params, fields };
serde_json::to_vec(&plugin_state)
}
/// Serialize a plugin's state to a vector containing JSON data. This can (and should) be shared
/// across plugin formats. Returns `false` and logs an error if the state could not be deserialized.
///
/// Make sure to reinitialize plugin after deserializing the state so it can react to the new
/// parameter values. The smoothers have already been reset by this function.
pub(crate) unsafe fn deserialize(
state: &[u8],
plugin_params: Pin<&dyn Params>,
param_by_hash: &HashMap<u32, ParamPtr>,
param_id_to_hash: &HashMap<&'static str, u32>,
current_buffer_config: Option<&BufferConfig>,
bypass_param_id: &str,
bypass_state: &AtomicBool,
) -> bool {
let state: State = match serde_json::from_slice(state) {
Ok(s) => s,
Err(err) => {
nih_debug_assert_failure!("Error while deserializing state: {}", err);
return false;
}
};
let sample_rate = current_buffer_config.map(|c| c.sample_rate);
for (param_id_str, param_value) in state.params {
// Handle the bypass parameter separately
if param_id_str == bypass_param_id {
match param_value {
ParamValue::Bool(b) => bypass_state.store(b, Ordering::SeqCst),
_ => nih_debug_assert_failure!(
"Invalid serialized value {:?} for parameter \"{}\"",
param_value,
param_id_str,
),
};
continue;
}
let param_ptr = match param_id_to_hash
.get(param_id_str.as_str())
.and_then(|hash| param_by_hash.get(hash))
{
Some(ptr) => ptr,
None => {
nih_debug_assert_failure!("Unknown parameter: {}", param_id_str);
continue;
}
};
match (param_ptr, param_value) {
(ParamPtr::FloatParam(p), ParamValue::F32(v)) => (**p).set_plain_value(v),
(ParamPtr::IntParam(p), ParamValue::I32(v)) => (**p).set_plain_value(v),
(ParamPtr::BoolParam(p), ParamValue::Bool(v)) => (**p).set_plain_value(v),
// Enums are serialized based on the active variant's index (which may not be the
// same as the discriminator)
(ParamPtr::EnumParam(p), ParamValue::I32(variant_idx)) => {
(**p).set_plain_value(variant_idx)
}
(param_ptr, param_value) => {
nih_debug_assert_failure!(
"Invalid serialized value {:?} for parameter \"{}\" ({:?})",
param_value,
param_id_str,
param_ptr,
);
}
}
// Make sure everything starts out in sync
if let Some(sample_rate) = sample_rate {
param_ptr.update_smoother(sample_rate, true);
}
}
// The plugin can also persist arbitrary fields alongside its parameters. This is useful for
// storing things like sample data.
plugin_params.deserialize_fields(&state.fields);
true
}