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|
use crate::core::Size;
use crate::geometry::{Frame, Geometry};
use crate::Renderer;
use std::cell::RefCell;
use std::sync::Arc;
/// A simple cache that stores generated [`Geometry`] to avoid recomputation.
///
/// A [`Cache`] will not redraw its geometry unless the dimensions of its layer
/// change or it is explicitly cleared.
#[derive(Debug, Default)]
pub struct Cache {
state: RefCell<State>,
}
#[derive(Debug, Default)]
enum State {
#[default]
Empty,
Filled {
bounds: Size,
primitive: Internal,
},
}
#[derive(Debug, Clone)]
enum Internal {
TinySkia(Arc<iced_tiny_skia::Primitive>),
#[cfg(feature = "wgpu")]
Wgpu(Arc<iced_wgpu::Primitive>),
#[cfg(feature = "custom")]
Custom(Arc<dyn crate::custom::Geometry>),
}
impl Cache {
/// Creates a new empty [`Cache`].
pub fn new() -> Self {
Cache {
state: RefCell::default(),
}
}
/// Clears the [`Cache`], forcing a redraw the next time it is used.
pub fn clear(&self) {
*self.state.borrow_mut() = State::Empty;
}
/// Draws [`Geometry`] using the provided closure and stores it in the
/// [`Cache`].
///
/// The closure will only be called when
/// - the bounds have changed since the previous draw call.
/// - the [`Cache`] is empty or has been explicitly cleared.
///
/// Otherwise, the previously stored [`Geometry`] will be returned. The
/// [`Cache`] is not cleared in this case. In other words, it will keep
/// returning the stored [`Geometry`] if needed.
pub fn draw(
&self,
renderer: &Renderer,
bounds: Size,
draw_fn: impl FnOnce(&mut Frame),
) -> Geometry {
use std::ops::Deref;
if let State::Filled {
bounds: cached_bounds,
primitive,
} = self.state.borrow().deref()
{
if *cached_bounds == bounds {
match primitive {
Internal::TinySkia(primitive) => {
return Geometry::TinySkia(
iced_tiny_skia::Primitive::Cache {
content: primitive.clone(),
},
);
}
#[cfg(feature = "wgpu")]
Internal::Wgpu(primitive) => {
return Geometry::Wgpu(iced_wgpu::Primitive::Cache {
content: primitive.clone(),
});
}
#[cfg(feature = "custom")]
Internal::Custom(geometry) => {
return Geometry::Custom(geometry.clone().load())
}
}
}
}
let mut frame = Frame::new(renderer, bounds);
draw_fn(&mut frame);
let primitive = {
let geometry = frame.into_geometry();
match geometry {
Geometry::TinySkia(primitive) => {
Internal::TinySkia(Arc::new(primitive))
}
#[cfg(feature = "wgpu")]
Geometry::Wgpu(primitive) => {
Internal::Wgpu(Arc::new(primitive))
}
#[cfg(feature = "custom")]
Geometry::Custom(geometry) => {
Internal::Custom(geometry.cache())
}
}
};
*self.state.borrow_mut() = State::Filled {
bounds,
primitive: primitive.clone(),
};
match primitive {
Internal::TinySkia(primitive) => {
Geometry::TinySkia(iced_tiny_skia::Primitive::Cache {
content: primitive,
})
}
#[cfg(feature = "wgpu")]
Internal::Wgpu(primitive) => {
Geometry::Wgpu(iced_wgpu::Primitive::Cache {
content: primitive,
})
}
#[cfg(feature = "custom")]
Internal::Custom(geometry) => Geometry::Custom(geometry.load()),
}
}
}
|
