lib.rs source code [crates/yoke_derive/src/lib.rs]

1	// This file is part of ICU4X. For terms of use, please see the file
2	// called LICENSE at the top level of the ICU4X source tree
3	// (online at: https://github.com/unicode-org/icu4x/blob/main/LICENSE ).
4
5	//! Custom derives for `Yokeable` from the `yoke` crate.
6
7	use proc_macro::TokenStream;
8	use proc_macro2::{Span, TokenStream as TokenStream2};
9	use quote::quote;
10	use syn::spanned::Spanned;
11	use syn::{parse_macro_input, parse_quote, DeriveInput, Ident, Lifetime, Type, WherePredicate};
12	use synstructure::Structure;
13
14	mod visitor;
15
16	/// Custom derive for `yoke::Yokeable`,
17	///
18	/// If your struct contains `zerovec::ZeroMap`, then the compiler will not
19	/// be able to guarantee the lifetime covariance due to the generic types on
20	/// the `ZeroMap` itself. You must add the following attribute in order for
21	/// the custom derive to work with `ZeroMap`.
22	///
23	/// ```rust,ignore
24	/// #[derive(Yokeable)]
25	/// #[yoke(prove_covariance_manually)]
26	/// ```
27	///
28	/// Beyond this case, if the derive fails to compile due to lifetime issues, it
29	/// means that the lifetime is not covariant and `Yokeable` is not safe to implement.
30	#[proc_macro_derive(Yokeable, attributes(yoke))]
31	pub fn yokeable_derive(input: TokenStream) -> TokenStream {
32	let input: DeriveInput = parse_macro_input!(input as DeriveInput);
33	TokenStream::from(yokeable_derive_impl(&input))
34	}
35
36	fn yokeable_derive_impl(input: &DeriveInput) -> TokenStream2 {
37	let tybounds = input
38	.generics
39	.type_params()
40	.map(\|ty\| {
41	// Strip out param defaults, we don't need them in the impl
42	let mut ty = ty.clone();
43	ty.eq_token = None;
44	ty.default = None;
45	ty
46	})
47	.collect::<Vec<_>>();
48	let typarams = tybounds
49	.iter()
50	.map(\|ty\| ty.ident.clone())
51	.collect::<Vec<_>>();
52	// We require all type parameters be 'static, otherwise
53	// the Yokeable impl becomes really unweildy to generate safely
54	let static_bounds: Vec<WherePredicate> = typarams
55	.iter()
56	.map(\|ty\| parse_quote!(#ty: 'static))
57	.collect();
58	let lts = input.generics.lifetimes().count();
59	if lts == `0` {
60	let name = &input.ident;
61	quote! {
62	// This is safe because there are no lifetime parameters.
63	unsafe impl<'a, #(#tybounds),> yoke::Yokeable<'a> for* #name<#(#typarams),> where* #(#static_bounds,)* Self: Sized {
64	type Output = Self;
65	#[inline]
66	fn transform(&self) -> &Self::Output {
67	self
68	}
69	#[inline]
70	fn transform_owned(self) -> Self::Output {
71	self
72	}
73	#[inline]
74	unsafe fn make(this: Self::Output) -> Self {
75	this
76	}
77	#[inline]
78	fn transform_mut<F>(&'a mut self, f: F)
79	where
80	F: 'static + for<'b> FnOnce(&'b mut Self::Output) {
81	f(self)
82	}
83	}
84	}
85	} else {
86	if lts != `1` {
87	return syn::Error::new(
88	input.generics.span(),
89	"derive(Yokeable) cannot have multiple lifetime parameters",
90	)
91	.to_compile_error();
92	}
93	let name = &input.ident;
94	let manual_covariance = input.attrs.iter().any(\|a\| {
95	if let Ok(i) = a.parse_args::<Ident>() {
96	if i == "prove_covariance_manually" {
97	return `true`;
98	}
99	}
100	`false`
101	});
102	if manual_covariance {
103	let mut structure = Structure::new(input);
104	let generics_env = typarams.iter().cloned().collect();
105	let static_bounds: Vec<WherePredicate> = typarams
106	.iter()
107	.map(\|ty\| parse_quote!(#ty: 'static))
108	.collect();
109	let mut yoke_bounds: Vec<WherePredicate> = vec![];
110	structure.bind_with(\|_\| synstructure::BindStyle::Move);
111	let owned_body = structure.each_variant(\|vi\| {
112	vi.construct(\|f, i\| {
113	let binding = format!("__binding_{i}");
114	let field = Ident::new(&binding, Span::call_site());
115	let fty_static = replace_lifetime(&f.ty, static_lt());
116
117	let (has_ty, has_lt) = visitor::check_type_for_parameters(&f.ty, &generics_env);
118	if has_ty {
119	// For types without type parameters, the compiler can figure out that the field implements
120	// Yokeable on its own. However, if there are type parameters, there may be complex preconditions
121	// to `FieldTy: Yokeable` that need to be satisfied. We get them to be satisfied by requiring
122	// `FieldTy<'static>: Yokeable<FieldTy<'a>>`
123	if has_lt {
124	let fty_a = replace_lifetime(&f.ty, custom_lt("'a"));
125	yoke_bounds.push(
126	parse_quote!(#fty_static: yoke::Yokeable<'a, Output = #fty_a>),
127	);
128	} else {
129	yoke_bounds.push(
130	parse_quote!(#fty_static: yoke::Yokeable<'a, Output = #fty_static>),
131	);
132	}
133	}
134	if has_ty \|\| has_lt {
135	// By calling transform_owned on all fields, we manually prove
136	// that the lifetimes are covariant, since this requirement
137	// must already be true for the type that implements transform_owned().
138	quote! {
139	<#fty_static as yoke::Yokeable<'a>>::transform_owned(#field)
140	}
141	} else {
142	// No nested lifetimes, so nothing to be done
143	quote! { #field }
144	}
145	})
146	});
147	let borrowed_body = structure.each(\|binding\| {
148	let f = binding.ast();
149	let field = &binding.binding;
150
151	let (has_ty, has_lt) = visitor::check_type_for_parameters(&f.ty, &generics_env);
152
153	if has_ty \|\| has_lt {
154	let fty_static = replace_lifetime(&f.ty, static_lt());
155	let fty_a = replace_lifetime(&f.ty, custom_lt("'a"));
156	// We also must assert that each individual field can `transform()` correctly
157	//
158	// Even though transform_owned() does such an assertion already, CoerceUnsized
159	// can cause type transformations that allow it to succeed where this would fail.
160	// We need to check both.
161	//
162	// https://github.com/unicode-org/icu4x/issues/2928
163	quote! {
164	let _: &#fty_a = &<#fty_static as yoke::Yokeable<'a>>::transform(#field);
165	}
166	} else {
167	// No nested lifetimes, so nothing to be done
168	quote! {}
169	}
170	});
171	return quote! {
172	unsafe impl<'a, #(#tybounds),> yoke::Yokeable<'a> for* #name<'static, #(#typarams),*>
173	where #(#static_bounds,)*
174	#(#yoke_bounds,)* {
175	type Output = #name<'a, #(#typarams),*>;
176	#[inline]
177	fn transform(&'a self) -> &'a Self::Output {
178	// These are just type asserts, we don't need them for anything
179	if `false` {
180	match self {
181	#borrowed_body
182	}
183	}
184	unsafe {
185	// safety: we have asserted covariance in
186	// transform_owned
187	::core::mem::transmute(self)
188	}
189	}
190	#[inline]
191	fn transform_owned(self) -> Self::Output {
192	match self { #owned_body }
193	}
194	#[inline]
195	unsafe fn make(this: Self::Output) -> Self {
196	use core::{mem, ptr};
197	// unfortunately Rust doesn't think `mem::transmute` is possible since it's not sure the sizes
198	// are the same
199	debug_assert!(mem::size_of::<Self::Output>() == mem::size_of::<Self>());
200	let ptr: *const Self = (&this as *const Self::Output).cast();
201	#[allow(forgetting_copy_types, clippy::forget_copy, clippy::forget_non_drop)] // This is a noop if the struct is copy, which Clippy doesn't like
202	mem::forget(this);
203	ptr::read(ptr)
204	}
205	#[inline]
206	fn transform_mut<F>(&'a mut self, f: F)
207	where
208	F: 'static + for<'b> FnOnce(&'b mut Self::Output) {
209	unsafe { f(core::mem::transmute::<&'a mut Self, &'a mut Self::Output>(self)) }
210	}
211	}
212	};
213	}
214	quote! {
215	// This is safe because as long as `transform()` compiles,
216	// we can be sure that `'a` is a covariant lifetime on `Self`
217	//
218	// This will not work for structs involving ZeroMap since
219	// the compiler does not know that ZeroMap is covariant.
220	//
221	// This custom derive can be improved to handle this case when
222	// necessary
223	unsafe impl<'a, #(#tybounds),> yoke::Yokeable<'a> for* #name<'static, #(#typarams),> where* #(#static_bounds,)* {
224	type Output = #name<'a, #(#typarams),*>;
225	#[inline]
226	fn transform(&'a self) -> &'a Self::Output {
227	self
228	}
229	#[inline]
230	fn transform_owned(self) -> Self::Output {
231	self
232	}
233	#[inline]
234	unsafe fn make(this: Self::Output) -> Self {
235	use core::{mem, ptr};
236	// unfortunately Rust doesn't think `mem::transmute` is possible since it's not sure the sizes
237	// are the same
238	debug_assert!(mem::size_of::<Self::Output>() == mem::size_of::<Self>());
239	let ptr: *const Self = (&this as *const Self::Output).cast();
240	#[allow(forgetting_copy_types, clippy::forget_copy, clippy::forget_non_drop)] // This is a noop if the struct is copy, which Clippy doesn't like
241	mem::forget(this);
242	ptr::read(ptr)
243	}
244	#[inline]
245	fn transform_mut<F>(&'a mut self, f: F)
246	where
247	F: 'static + for<'b> FnOnce(&'b mut Self::Output) {
248	unsafe { f(core::mem::transmute::<&'a mut Self, &'a mut Self::Output>(self)) }
249	}
250	}
251	}
252	}
253	}
254
255	fn static_lt() -> Lifetime {
256	Lifetime::new(symbol:"'static", Span::call_site())
257	}
258
259	fn custom_lt(s: &str) -> Lifetime {
260	Lifetime::new(symbol:s, Span::call_site())
261	}
262
263	fn replace_lifetime(x: &Type, lt: Lifetime) -> Type {
264	use syn::fold::Fold;
265	struct ReplaceLifetime(Lifetime);
266
267	impl Fold for ReplaceLifetime {
268	fn fold_lifetime(&mut self, _: Lifetime) -> Lifetime {
269	self.0.clone()
270	}
271	}
272	ReplaceLifetime(lt).fold_type(x.clone())
273	}
274