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use crate::proc::TypeResolution;
use crate::arena::Handle;
#[derive(Clone, Debug, thiserror::Error)]
#[cfg_attr(test, derive(PartialEq))]
pub enum ComposeError {
#[error("Composing of type {0:?} can't be done")]
Type(Handle<crate::Type>),
#[error("Composing expects {expected} components but {given} were given")]
ComponentCount { given: u32, expected: u32 },
#[error("Composing {index}'s component type is not expected")]
ComponentType { index: u32 },
}
pub fn validate_compose(
self_ty_handle: Handle<crate::Type>,
gctx: crate::proc::GlobalCtx,
component_resolutions: impl ExactSizeIterator<Item = TypeResolution>,
) -> Result<(), ComposeError> {
use crate::TypeInner as Ti;
match gctx.types[self_ty_handle].inner {
// vectors are composed from scalars or other vectors
Ti::Vector { size, scalar } => {
let mut total = 0;
for (index, comp_res) in component_resolutions.enumerate() {
total += match *comp_res.inner_with(gctx.types) {
Ti::Scalar(comp_scalar) if comp_scalar == scalar => 1,
Ti::Vector {
size: comp_size,
scalar: comp_scalar,
} if comp_scalar == scalar => comp_size as u32,
ref other => {
log::error!(
"Vector component[{}] type {:?}, building {:?}",
index,
other,
scalar
);
return Err(ComposeError::ComponentType {
index: index as u32,
});
}
};
}
if size as u32 != total {
return Err(ComposeError::ComponentCount {
expected: size as u32,
given: total,
});
}
}
// matrix are composed from column vectors
Ti::Matrix {
columns,
rows,
scalar,
} => {
let inner = Ti::Vector { size: rows, scalar };
if columns as usize != component_resolutions.len() {
return Err(ComposeError::ComponentCount {
expected: columns as u32,
given: component_resolutions.len() as u32,
});
}
for (index, comp_res) in component_resolutions.enumerate() {
if comp_res.inner_with(gctx.types) != &inner {
log::error!("Matrix component[{}] type {:?}", index, comp_res);
return Err(ComposeError::ComponentType {
index: index as u32,
});
}
}
}
Ti::Array {
base,
size: crate::ArraySize::Constant(count),
stride: _,
} => {
if count.get() as usize != component_resolutions.len() {
return Err(ComposeError::ComponentCount {
expected: count.get(),
given: component_resolutions.len() as u32,
});
}
for (index, comp_res) in component_resolutions.enumerate() {
let base_inner = &gctx.types[base].inner;
let comp_res_inner = comp_res.inner_with(gctx.types);
// We don't support arrays of pointers, but it seems best not to
// embed that assumption here, so use `TypeInner::equivalent`.
if !base_inner.equivalent(comp_res_inner, gctx.types) {
log::error!("Array component[{}] type {:?}", index, comp_res);
return Err(ComposeError::ComponentType {
index: index as u32,
});
}
}
}
Ti::Struct { ref members, .. } => {
if members.len() != component_resolutions.len() {
return Err(ComposeError::ComponentCount {
given: component_resolutions.len() as u32,
expected: members.len() as u32,
});
}
for (index, (member, comp_res)) in members.iter().zip(component_resolutions).enumerate()
{
let member_inner = &gctx.types[member.ty].inner;
let comp_res_inner = comp_res.inner_with(gctx.types);
// We don't support pointers in structs, but it seems best not to embed
// that assumption here, so use `TypeInner::equivalent`.
if !comp_res_inner.equivalent(member_inner, gctx.types) {
log::error!("Struct component[{}] type {:?}", index, comp_res);
return Err(ComposeError::ComponentType {
index: index as u32,
});
}
}
}
ref other => {
log::error!("Composing of {:?}", other);
return Err(ComposeError::Type(self_ty_handle));
}
}
Ok(())
}