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#[macro_export]
macro_rules! impl_primitives {
($($i:ident)+) => {$(
impl Type for $i {
const NAME: &'static str = stringify!($i);
fn inline(_: DefOpts, _: &[DataType]) -> DataType {
DataType::Primitive(PrimitiveType::$i)
}
fn reference(_: DefOpts, _: &[DataType]) -> DataType {
DataType::Primitive(PrimitiveType::$i)
}
fn definition(_: DefOpts) -> DataType {
unreachable!()
}
}
)+};
}
#[macro_export]
macro_rules! impl_tuple {
(($($i:ident),*)) => {
#[allow(non_snake_case)]
impl<$($i: Type + 'static),*> Type for ($($i),*) {
const NAME: &'static str = stringify!(($($i::NAME),*));
fn inline(_opts: DefOpts, _generics: &[DataType]) -> DataType {
$(let $i = $i::reference(
DefOpts {
parent_inline: _opts.parent_inline,
type_map: _opts.type_map
}, &[]
);)*
DataType::Tuple(TupleType {
name: stringify!(($($i),*)).to_string(),
fields: vec![$($i),*],
generics: vec![]
})
}
fn reference(_opts: DefOpts, generics: &[DataType]) -> DataType {
Self::inline(_opts, generics)
}
fn definition(_opts: DefOpts) -> DataType {
unreachable!()
}
}
};
}
#[macro_export]
macro_rules! impl_containers {
($($container:ident)+) => {$(
impl<T: Type> Type for $container<T> {
const NAME: &'static str = stringify!($container);
fn inline(opts: DefOpts, generics: &[DataType]) -> DataType {
generics.get(0).cloned().unwrap_or(T::inline(
DefOpts {
parent_inline: false,
type_map: opts.type_map,
},
generics,
))
}
fn reference(opts: DefOpts, generics: &[DataType]) -> DataType {
generics.get(0).cloned().unwrap_or(T::reference(
DefOpts {
parent_inline: false,
type_map: opts.type_map,
},
generics,
))
}
fn definition(_: DefOpts) -> DataType {
unreachable!()
}
}
)+}
}
#[macro_export]
macro_rules! impl_as {
($($ty:path as $tty:ident)+) => {$(
impl Type for $ty {
const NAME: &'static str = stringify!($ty);
fn inline(opts: DefOpts, generics: &[DataType]) -> DataType {
<$tty as Type>::inline(opts, generics)
}
fn reference(opts: DefOpts, generics: &[DataType]) -> DataType {
<$tty as Type>::reference(opts, generics)
}
fn definition(opts: DefOpts) -> DataType {
<$tty as Type>::definition(opts)
}
}
)+};
}
#[macro_export]
macro_rules! impl_for_list {
($($ty:path as $name:expr)+) => {$(
impl<T: Type> Type for $ty {
const NAME: &'static str = $name;
fn inline(opts: DefOpts, generics: &[DataType]) -> DataType {
DataType::List(Box::new(generics.get(0).cloned().unwrap_or(T::inline(
DefOpts {
parent_inline: false,
type_map: opts.type_map,
},
generics,
))))
}
fn reference(opts: DefOpts, generics: &[DataType]) -> DataType {
DataType::List(Box::new(generics.get(0).cloned().unwrap_or(T::reference(
DefOpts {
parent_inline: false,
type_map: opts.type_map,
},
generics,
))))
}
fn definition(_: DefOpts) -> DataType {
unreachable!()
}
}
)+};
}
#[macro_export]
macro_rules! impl_for_map {
($ty:path as $name:expr) => {
impl<K: Type, V: Type> Type for $ty {
const NAME: &'static str = $name;
fn inline(defs: DefOpts, generics: &[DataType]) -> DataType {
DataType::Record(Box::new((
generics.get(0).cloned().unwrap_or(<K as Type>::inline(
DefOpts {
parent_inline: false,
type_map: defs.type_map,
},
&[],
)),
generics.get(1).cloned().unwrap_or(<V as Type>::inline(
DefOpts {
parent_inline: false,
type_map: defs.type_map,
},
&[],
)),
)))
}
fn reference(opts: DefOpts, generics: &[DataType]) -> DataType {
DataType::Record(Box::new((
generics.get(0).cloned().unwrap_or(K::reference(
DefOpts {
parent_inline: false,
type_map: opts.type_map,
},
generics,
)),
generics.get(1).cloned().unwrap_or(V::reference(
DefOpts {
parent_inline: false,
type_map: opts.type_map,
},
generics,
)),
)))
}
fn definition(_: DefOpts) -> DataType {
unreachable!()
}
}
};
}
