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/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
use super::APIConverter;
use crate::attributes::InterfaceAttributes;
use crate::{converters::convert_docstring, InterfaceCollector};
use anyhow::{bail, Result};
use std::collections::HashSet;
use uniffi_meta::{
ConstructorMetadata, FnParamMetadata, MethodMetadata, ObjectImpl, ObjectMetadata, Type,
UniffiTraitMetadata,
};
impl APIConverter<ObjectMetadata> for weedle::InterfaceDefinition<'_> {
fn convert(&self, ci: &mut InterfaceCollector) -> Result<ObjectMetadata> {
if self.inheritance.is_some() {
bail!("interface inheritance is not supported");
}
let attributes = match &self.attributes {
Some(attrs) => InterfaceAttributes::try_from(attrs)?,
None => Default::default(),
};
let object_name = self.identifier.0;
let object_impl = attributes.object_impl()?;
// Convert each member into a constructor or method, guarding against duplicate names.
// They get added to the ci and aren't carried in ObjectMetadata.
let mut member_names = HashSet::new();
for member in &self.members.body {
match member {
weedle::interface::InterfaceMember::Constructor(t) => {
let mut cons: ConstructorMetadata = t.convert(ci)?;
if object_impl == ObjectImpl::Trait {
bail!(
"Trait interfaces can not have constructors: \"{}\"",
cons.name
)
}
if !member_names.insert(cons.name.clone()) {
bail!("Duplicate interface member name: \"{}\"", cons.name)
}
cons.self_name = object_name.to_string();
ci.items.insert(cons.into());
}
weedle::interface::InterfaceMember::Operation(t) => {
let mut method: MethodMetadata = t.convert(ci)?;
if !member_names.insert(method.name.clone()) {
bail!("Duplicate interface member name: \"{}\"", method.name)
}
method.self_name = object_name.to_string();
ci.items.insert(method.into());
}
_ => bail!("no support for interface member type {:?} yet", member),
}
}
// A helper for our trait methods
let make_trait_method = |name: &str,
inputs: Vec<FnParamMetadata>,
return_type: Option<Type>|
-> Result<MethodMetadata> {
Ok(MethodMetadata {
module_path: ci.module_path(),
// The name is used to create the ffi function for the method.
name: name.to_string(),
self_name: object_name.to_string(),
is_async: false,
inputs,
return_type,
throws: None,
takes_self_by_arc: false,
checksum: None,
docstring: None,
})
};
// Trait methods are in the Metadata.
let uniffi_traits = attributes
.get_traits()
.into_iter()
.map(|trait_name| {
Ok(match trait_name.as_str() {
"Debug" => UniffiTraitMetadata::Debug {
fmt: make_trait_method("uniffi_trait_debug", vec![], Some(Type::String))?,
},
"Display" => UniffiTraitMetadata::Display {
fmt: make_trait_method("uniffi_trait_display", vec![], Some(Type::String))?,
},
"Eq" => UniffiTraitMetadata::Eq {
eq: make_trait_method(
"uniffi_trait_eq_eq",
vec![FnParamMetadata {
name: "other".to_string(),
ty: Type::Object {
module_path: ci.module_path(),
name: object_name.to_string(),
imp: object_impl,
},
by_ref: true,
default: None,
optional: false,
}],
Some(Type::Boolean),
)?,
ne: make_trait_method(
"uniffi_trait_eq_ne",
vec![FnParamMetadata {
name: "other".to_string(),
ty: Type::Object {
module_path: ci.module_path(),
name: object_name.to_string(),
imp: object_impl,
},
by_ref: true,
default: None,
optional: false,
}],
Some(Type::Boolean),
)?,
},
"Hash" => UniffiTraitMetadata::Hash {
hash: make_trait_method("uniffi_trait_hash", vec![], Some(Type::UInt64))?,
},
_ => bail!("Invalid trait name: {}", trait_name),
})
})
.collect::<Result<Vec<_>>>()?;
for ut in uniffi_traits {
ci.items.insert(ut.into());
}
Ok(ObjectMetadata {
module_path: ci.module_path(),
name: object_name.to_string(),
imp: object_impl,
docstring: self.docstring.as_ref().map(|v| convert_docstring(&v.0)),
})
}
}