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// This file is part of ICU4X. For terms of use, please see the file
// called LICENSE at the top level of the ICU4X source tree
use super::vecs::{MutableZeroVecLike, ZeroVecLike};
use crate::ule::*;
use crate::vecs::{FlexZeroSlice, FlexZeroVec};
use crate::vecs::{VarZeroSlice, VarZeroVec};
use crate::zerovec::{ZeroSlice, ZeroVec};
use alloc::boxed::Box;
/// Trait marking types which are allowed to be keys or values in [`ZeroMap`](super::ZeroMap).
///
/// Users should not be calling methods of this trait directly, however if you are
/// implementing your own [`AsULE`] or [`VarULE`] type you may wish to implement
/// this trait.
// this lifetime should be a GAT on Container once that is possible
#[allow(clippy::upper_case_acronyms)] // KV is not an acronym
pub trait ZeroMapKV<'a> {
/// The container that can be used with this type: [`ZeroVec`] or [`VarZeroVec`].
type Container: MutableZeroVecLike<
'a,
Self,
SliceVariant = Self::Slice,
GetType = Self::GetType,
OwnedType = Self::OwnedType,
> + Sized;
type Slice: ZeroVecLike<Self, GetType = Self::GetType> + ?Sized;
/// The type produced by `Container::get()`
///
/// This type will be predetermined by the choice of `Self::Container`:
/// For sized types this must be `T::ULE`, and for unsized types this must be `T`
type GetType: ?Sized + 'static;
/// The type produced by `Container::replace()` and `Container::remove()`,
/// also used during deserialization. If `Self` is human readable serialized,
/// deserializing to `Self::OwnedType` should produce the same value once
/// passed through `Self::owned_as_self()`
///
/// This type will be predetermined by the choice of `Self::Container`:
/// For sized types this must be `T` and for unsized types this must be `Box<T>`
type OwnedType: 'static;
}
macro_rules! impl_sized_kv {
($ty:ident) => {
impl<'a> ZeroMapKV<'a> for $ty {
type Container = ZeroVec<'a, $ty>;
type Slice = ZeroSlice<$ty>;
type GetType = <$ty as AsULE>::ULE;
type OwnedType = $ty;
}
};
}
impl_sized_kv!(u8);
impl_sized_kv!(u16);
impl_sized_kv!(u32);
impl_sized_kv!(u64);
impl_sized_kv!(u128);
impl_sized_kv!(i8);
impl_sized_kv!(i16);
impl_sized_kv!(i32);
impl_sized_kv!(i64);
impl_sized_kv!(i128);
impl_sized_kv!(char);
impl_sized_kv!(f32);
impl_sized_kv!(f64);
impl<'a> ZeroMapKV<'a> for usize {
type Container = FlexZeroVec<'a>;
type Slice = FlexZeroSlice;
type GetType = [u8];
type OwnedType = usize;
}
impl<'a, T> ZeroMapKV<'a> for Option<T>
where
Option<T>: AsULE + 'static,
{
type Container = ZeroVec<'a, Option<T>>;
type Slice = ZeroSlice<Option<T>>;
type GetType = <Option<T> as AsULE>::ULE;
type OwnedType = Option<T>;
}
impl<'a, T> ZeroMapKV<'a> for OptionVarULE<T>
where
T: VarULE + ?Sized,
{
type Container = VarZeroVec<'a, OptionVarULE<T>>;
type Slice = VarZeroSlice<OptionVarULE<T>>;
type GetType = OptionVarULE<T>;
type OwnedType = Box<OptionVarULE<T>>;
}
impl<'a> ZeroMapKV<'a> for str {
type Container = VarZeroVec<'a, str>;
type Slice = VarZeroSlice<str>;
type GetType = str;
type OwnedType = Box<str>;
}
impl<'a, T> ZeroMapKV<'a> for [T]
where
T: ULE + AsULE<ULE = T>,
{
type Container = VarZeroVec<'a, [T]>;
type Slice = VarZeroSlice<[T]>;
type GetType = [T];
type OwnedType = Box<[T]>;
}
impl<'a, T, const N: usize> ZeroMapKV<'a> for [T; N]
where
T: AsULE + 'static,
{
type Container = ZeroVec<'a, [T; N]>;
type Slice = ZeroSlice<[T; N]>;
type GetType = [T::ULE; N];
type OwnedType = [T; N];
}
impl<'a, T> ZeroMapKV<'a> for ZeroSlice<T>
where
T: AsULE + 'static,
{
type Container = VarZeroVec<'a, ZeroSlice<T>>;
type Slice = VarZeroSlice<ZeroSlice<T>>;
type GetType = ZeroSlice<T>;
type OwnedType = Box<ZeroSlice<T>>;
}