use parking_lot::RwLockWriteGuard; use std::collections::VecDeque; use std::sync::atomic::Ordering; use super::inner::{Task, WrapperInner}; use crate::context::ProcessContext; use crate::event_loop::EventLoop; use crate::plugin::{NoteEvent, Vst3Plugin}; /// A [ProcessContext] implementation for the wrapper. This is a separate object so it can hold on /// to lock guards for event queues. Otherwise reading these events would require constant /// unnecessary atomic operations to lock the uncontested RwLocks. pub(crate) struct WrapperProcessContext<'a, P: Vst3Plugin> { pub inner: &'a WrapperInner

, pub input_events_guard: RwLockWriteGuard<'a, VecDeque>, } impl ProcessContext for WrapperProcessContext<'_, P> { fn set_latency_samples(&self, samples: u32) { // Only trigger a restart if it's actually needed let old_latency = self.inner.current_latency.swap(samples, Ordering::SeqCst); if old_latency != samples { let task_posted = unsafe { self.inner.event_loop.read().assume_init_ref() } .do_maybe_async(Task::TriggerRestart( vst3_sys::vst::RestartFlags::kLatencyChanged as i32, )); nih_debug_assert!(task_posted, "The task queue is full, dropping task..."); } } fn next_midi_event(&mut self) -> Option { self.input_events_guard.pop_front() } }