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use std::marker::PhantomData;
use std::mem;
use std::sync::Arc;
use std::vec::IntoIter as VecIntoIter;
use buffer::BufferAccess;
use buffer::TypedBufferAccess;
use pipeline::shader::ShaderInterfaceDef;
use pipeline::vertex::AttributeInfo;
use pipeline::vertex::IncompatibleVertexDefinitionError;
use pipeline::vertex::InputRate;
use pipeline::vertex::Vertex;
use pipeline::vertex::VertexDefinition;
use pipeline::vertex::VertexSource;
pub struct TwoBuffersDefinition<T, U>(pub PhantomData<(T, U)>);
impl<T, U> TwoBuffersDefinition<T, U> {
#[inline]
pub fn new() -> TwoBuffersDefinition<T, U> {
TwoBuffersDefinition(PhantomData)
}
}
unsafe impl<T, U, I> VertexDefinition<I> for TwoBuffersDefinition<T, U>
where T: Vertex,
U: Vertex,
I: ShaderInterfaceDef
{
type BuffersIter = VecIntoIter<(u32, usize, InputRate)>;
type AttribsIter = VecIntoIter<(u32, u32, AttributeInfo)>;
fn definition(
&self, interface: &I)
-> Result<(Self::BuffersIter, Self::AttribsIter), IncompatibleVertexDefinitionError> {
let attrib = {
let mut attribs = Vec::with_capacity(interface.elements().len());
for e in interface.elements() {
let name = e.name.as_ref().unwrap();
let (infos, buf_offset) = if let Some(infos) = <T as Vertex>::member(name) {
(infos, 0)
} else if let Some(infos) = <U as Vertex>::member(name) {
(infos, 1)
} else {
return Err(IncompatibleVertexDefinitionError::MissingAttribute {
attribute: name.clone().into_owned(),
});
};
if !infos.ty.matches(infos.array_size,
e.format,
e.location.end - e.location.start)
{
return Err(IncompatibleVertexDefinitionError::FormatMismatch {
attribute: name.clone().into_owned(),
shader: (e.format, (e.location.end - e.location.start) as usize),
definition: (infos.ty, infos.array_size),
});
}
let mut offset = infos.offset;
for loc in e.location.clone() {
attribs.push((loc,
buf_offset,
AttributeInfo {
offset: offset,
format: e.format,
}));
offset += e.format.size().unwrap();
}
}
attribs
}.into_iter();
let buffers = vec![
(0, mem::size_of::<T>(), InputRate::Vertex),
(1, mem::size_of::<U>(), InputRate::Vertex),
].into_iter();
Ok((buffers, attrib))
}
}
unsafe impl<T, U> VertexSource<Vec<Arc<dyn BufferAccess + Send + Sync>>> for TwoBuffersDefinition<T, U>
where T: Vertex,
U: Vertex
{
#[inline]
fn decode(&self, source: Vec<Arc<dyn BufferAccess + Send + Sync>>)
-> (Vec<Box<dyn BufferAccess + Send + Sync>>, usize, usize) {
assert_eq!(source.len(), 2);
let vertices = [
source[0].size() / mem::size_of::<T>(),
source[1].size() / mem::size_of::<U>(),
].iter()
.cloned()
.min()
.unwrap();
(vec![Box::new(source[0].clone()), Box::new(source[1].clone())], vertices, 1)
}
}
unsafe impl<'a, T, U, Bt, Bu> VertexSource<(Bt, Bu)> for TwoBuffersDefinition<T, U>
where T: Vertex,
Bt: TypedBufferAccess<Content = [T]> + Send + Sync + 'static,
U: Vertex,
Bu: TypedBufferAccess<Content = [U]> + Send + Sync + 'static
{
#[inline]
fn decode(&self, source: (Bt, Bu)) -> (Vec<Box<dyn BufferAccess + Send + Sync>>, usize, usize) {
let vertices = [source.0.len(), source.1.len()]
.iter()
.cloned()
.min()
.unwrap();
(vec![Box::new(source.0) as Box<_>, Box::new(source.1) as Box<_>], vertices, 1)
}
}