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android: Implement format swizzle via buffer copies
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MarijnS95 committed Dec 16, 2024
1 parent e59bcde commit 97eeb57
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Showing 3 changed files with 85 additions and 63 deletions.
1 change: 1 addition & 0 deletions Cargo.toml
Original file line number Diff line number Diff line change
Expand Up @@ -29,6 +29,7 @@ log = "0.4.17"
raw_window_handle = { package = "raw-window-handle", version = "0.6", features = ["std"] }

[target.'cfg(target_os = "android")'.dependencies]
bytemuck = "1.12.3"
ndk = "0.9.0"

[target.'cfg(all(unix, not(any(target_vendor = "apple", target_os = "android", target_os = "redox"))))'.dependencies]
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142 changes: 80 additions & 62 deletions src/backends/android.rs
Original file line number Diff line number Diff line change
Expand Up @@ -7,73 +7,65 @@ use ndk::{
hardware_buffer_format::HardwareBufferFormat,
native_window::{NativeWindow, NativeWindowBufferLockGuard},
};
#[cfg(doc)]
use raw_window_handle::AndroidNdkWindowHandle;
use raw_window_handle::{HasDisplayHandle, HasWindowHandle, RawWindowHandle};

use crate::error::InitError;
use crate::{Rect, SoftBufferError};
use crate::{BufferInterface, Rect, SoftBufferError, SurfaceInterface};

/// The handle to a window for software buffering.
pub struct AndroidImpl<D: ?Sized, W: ?Sized> {
pub struct AndroidImpl<D, W> {
native_window: NativeWindow,

_display: PhantomData<D>,

/// The pointer to the window object.
///
/// This is pretty useless because it gives us a pointer to [`NativeWindow`] that we have to increase the refcount on.
/// Alternatively we can use [`NativeWindow::from_ptr()`] wrapped in [`std::mem::ManuallyDrop`]
window: W,
_display: PhantomData<D>,
}

// TODO: Current system doesn't require a trait to be implemented here, even though it exists.
impl<D: HasDisplayHandle, W: HasWindowHandle> AndroidImpl<D, W> {
impl<D: HasDisplayHandle, W: HasWindowHandle> SurfaceInterface<D, W> for AndroidImpl<D, W> {
type Context = D;
type Buffer<'a>
= BufferImpl<'a, D, W>
where
Self: 'a;

/// Create a new [`AndroidImpl`] from an [`AndroidNdkWindowHandle`].
///
/// # Safety
///
/// The [`AndroidNdkWindowHandle`] must be a valid window handle.
// TODO: That's lame, why can't we get an AndroidNdkWindowHandle directly here
pub(crate) fn new(window: W, _display: &D) -> Result<Self, InitError<W>> {
// Get the raw Android window (surface).
fn new(window: W, _display: &Self::Context) -> Result<Self, InitError<W>> {
let raw = window.window_handle()?.as_raw();
let RawWindowHandle::AndroidNdk(a) = raw else {
return Err(InitError::Unsupported(window));
};

// Acquire a new owned reference to the window, that will be freed on drop.
// SAFETY: We have confirmed that the window handle is valid.
let native_window = unsafe { NativeWindow::clone_from_ptr(a.a_native_window.cast()) };

Ok(Self {
native_window,
// _display: DisplayHandle::borrow_raw(raw_window_handle::RawDisplayHandle::Android(
// AndroidDisplayHandle,
// )),
_display: PhantomData,
window,
})
}

#[inline]
pub fn window(&self) -> &W {
fn window(&self) -> &W {
&self.window
}

/// Also changes the pixel format to [`HardwareBufferFormat::R8G8B8A8_UNORM`].
pub fn resize(&mut self, width: NonZeroU32, height: NonZeroU32) -> Result<(), SoftBufferError> {
fn resize(&mut self, width: NonZeroU32, height: NonZeroU32) -> Result<(), SoftBufferError> {
let (width, height) = (|| {
let width = NonZeroI32::try_from(width).ok()?;
let height = NonZeroI32::try_from(height).ok()?;
Some((width, height))
})()
.ok_or(SoftBufferError::SizeOutOfRange { width, height })?;

// Do not change the format.
self.native_window
.set_buffers_geometry(
width.into(),
height.into(),
// Default is typically R5G6B5 16bpp, switch to 32bpp
Some(HardwareBufferFormat::R8G8B8A8_UNORM),
Some(HardwareBufferFormat::R8G8B8X8_UNORM),
)
.map_err(|err| {
SoftBufferError::PlatformError(
Expand All @@ -83,72 +75,98 @@ impl<D: HasDisplayHandle, W: HasWindowHandle> AndroidImpl<D, W> {
})
}

pub fn buffer_mut(&mut self) -> Result<BufferImpl<'_, D, W>, SoftBufferError> {
let lock_guard = self.native_window.lock(None).map_err(|err| {
fn buffer_mut(&mut self) -> Result<BufferImpl<'_, D, W>, SoftBufferError> {
let native_window_buffer = self.native_window.lock(None).map_err(|err| {
SoftBufferError::PlatformError(
Some("Failed to lock ANativeWindow".to_owned()),
Some(Box::new(err)),
)
})?;

assert_eq!(
lock_guard.format().bytes_per_pixel(),
Some(4),
"Unexpected buffer format {:?}, please call .resize() first to change it to RGBA8888",
lock_guard.format()
);
if !matches!(
native_window_buffer.format(),
// These are the only formats we support
HardwareBufferFormat::R8G8B8A8_UNORM | HardwareBufferFormat::R8G8B8X8_UNORM
) {
return Err(SoftBufferError::PlatformError(
Some(format!(
"Unexpected buffer format {:?}, please call \
.resize() first to change it to RGBx8888",
native_window_buffer.format()
)),
None,
));
}

let buffer = vec![0; native_window_buffer.width() * native_window_buffer.height()];

Ok(BufferImpl(lock_guard, PhantomData, PhantomData))
Ok(BufferImpl {
native_window_buffer,
buffer,
marker: PhantomData,
})
}

/// Fetch the buffer from the window.
pub fn fetch(&mut self) -> Result<Vec<u32>, SoftBufferError> {
fn fetch(&mut self) -> Result<Vec<u32>, SoftBufferError> {
Err(SoftBufferError::Unimplemented)
}
}

pub struct BufferImpl<'a, D: ?Sized, W>(
NativeWindowBufferLockGuard<'a>,
PhantomData<&'a D>,
PhantomData<&'a W>,
);
pub struct BufferImpl<'a, D: ?Sized, W> {
native_window_buffer: NativeWindowBufferLockGuard<'a>,
buffer: Vec<u32>,
marker: PhantomData<(&'a D, &'a W)>,
}

// TODO: Move to NativeWindowBufferLockGuard?
unsafe impl<'a, D, W> Send for BufferImpl<'a, D, W> {}

impl<'a, D: HasDisplayHandle + ?Sized, W: HasWindowHandle> BufferImpl<'a, D, W> {
impl<'a, D: HasDisplayHandle, W: HasWindowHandle> BufferInterface for BufferImpl<'a, D, W> {
#[inline]
pub fn pixels(&self) -> &[u32] {
todo!()
// unsafe {
// std::slice::from_raw_parts(
// self.0.bits().cast_const().cast(),
// (self.0.stride() * self.0.height()) as usize,
// )
// }
fn pixels(&self) -> &[u32] {
&self.buffer
}

#[inline]
pub fn pixels_mut(&mut self) -> &mut [u32] {
let bytes = self.0.bytes().expect("Nonplanar format");
unsafe {
std::slice::from_raw_parts_mut(
bytes.as_mut_ptr().cast(),
bytes.len() / std::mem::size_of::<u32>(),
)
}
fn pixels_mut(&mut self) -> &mut [u32] {
&mut self.buffer
}

pub fn age(&self) -> u8 {
#[inline]
fn age(&self) -> u8 {
0
}

pub fn present(self) -> Result<(), SoftBufferError> {
// Dropping the guard automatically unlocks and posts it
// TODO: This function is pretty slow this way
fn present(mut self) -> Result<(), SoftBufferError> {
let input_lines = self.buffer.chunks(self.native_window_buffer.width());
for (output, input) in self
.native_window_buffer
.lines()
// Unreachable as we checked before that this is a valid, mappable format
.unwrap()
.zip(input_lines)
{
// .lines() removed the stride
assert_eq!(output.len(), input.len() * 4);

for (i, pixel) in input.iter().enumerate() {
// Swizzle colors from RGBX to BGR
let [b, g, r, _] = pixel.to_le_bytes();
output[i * 4].write(b);
output[i * 4 + 1].write(g);
output[i * 4 + 2].write(r);
// TODO alpha?
}
}
Ok(())
}

pub fn present_with_damage(self, _damage: &[Rect]) -> Result<(), SoftBufferError> {
Err(SoftBufferError::Unimplemented)
fn present_with_damage(self, _damage: &[Rect]) -> Result<(), SoftBufferError> {
// TODO: Android requires the damage rect _at lock time_
// Since we're faking the backing buffer _anyway_, we could even fake the surface lock
// and lock it here (if it doesn't influence timings).
self.present()
}
}
5 changes: 4 additions & 1 deletion src/lib.rs
Original file line number Diff line number Diff line change
Expand Up @@ -196,13 +196,16 @@ impl<D: HasDisplayHandle, W: HasWindowHandle> HasWindowHandle for Surface<D, W>
/// - Web
/// - AppKit
/// - UIKit
///
/// Buffer copies an channel swizzling happen on:
/// - Android
pub struct Buffer<'a, D, W> {
buffer_impl: BufferDispatch<'a, D, W>,
_marker: PhantomData<(Arc<D>, Cell<()>)>,
}

impl<D: HasDisplayHandle, W: HasWindowHandle> Buffer<'_, D, W> {
/// Is age is the number of frames ago this buffer was last presented. So if the value is
/// `age` is the number of frames ago this buffer was last presented. So if the value is
/// `1`, it is the same as the last frame, and if it is `2`, it is the same as the frame
/// before that (for backends using double buffering). If the value is `0`, it is a new
/// buffer that has unspecified contents.
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