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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
* file, You can obtain one at https://mozilla.org/MPL/2.0/. */
use darling::{FromDeriveInput, FromField, FromVariant};
use proc_macro2::{Span, TokenStream};
use quote::TokenStreamExt;
use syn::{self, AngleBracketedGenericArguments, Binding, DeriveInput, Field};
use syn::{GenericArgument, GenericParam, Ident, Path};
use syn::{PathArguments, PathSegment, QSelf, Type, TypeArray, TypeGroup};
use syn::{TypeParam, TypeParen, TypePath, TypeSlice, TypeTuple};
use syn::{Variant, WherePredicate};
use synstructure::{self, BindStyle, BindingInfo, VariantAst, VariantInfo};
/// Given an input type which has some where clauses already, like:
///
/// struct InputType<T>
/// where
/// T: Zero,
/// {
/// ...
/// }
///
/// Add the necessary `where` clauses so that the output type of a trait
/// fulfils them.
///
/// For example:
///
/// ```ignore
/// <T as ToComputedValue>::ComputedValue: Zero,
/// ```
///
/// This needs to run before adding other bounds to the type parameters.
pub fn propagate_clauses_to_output_type(
where_clause: &mut Option<syn::WhereClause>,
generics: &syn::Generics,
trait_path: &Path,
trait_output: &Ident,
) {
let where_clause = match *where_clause {
Some(ref mut clause) => clause,
None => return,
};
let mut extra_bounds = vec![];
for pred in &where_clause.predicates {
let ty = match *pred {
syn::WherePredicate::Type(ref ty) => ty,
ref predicate => panic!("Unhanded complex where predicate: {:?}", predicate),
};
let path = match ty.bounded_ty {
syn::Type::Path(ref p) => &p.path,
ref ty => panic!("Unhanded complex where type: {:?}", ty),
};
assert!(
ty.lifetimes.is_none(),
"Unhanded complex lifetime bound: {:?}",
ty,
);
let ident = match path_to_ident(path) {
Some(i) => i,
None => panic!("Unhanded complex where type path: {:?}", path),
};
if generics.type_params().any(|param| param.ident == *ident) {
extra_bounds.push(ty.clone());
}
}
for bound in extra_bounds {
let ty = bound.bounded_ty;
let bounds = bound.bounds;
where_clause
.predicates
.push(parse_quote!(<#ty as #trait_path>::#trait_output: #bounds))
}
}
pub fn add_predicate(where_clause: &mut Option<syn::WhereClause>, pred: WherePredicate) {
where_clause
.get_or_insert(parse_quote!(where))
.predicates
.push(pred);
}
pub fn fmap_match<F>(input: &DeriveInput, bind_style: BindStyle, f: F) -> TokenStream
where
F: FnMut(&BindingInfo) -> TokenStream,
{
fmap2_match(input, bind_style, f, |_| None)
}
pub fn fmap2_match<F, G>(
input: &DeriveInput,
bind_style: BindStyle,
mut f: F,
mut g: G,
) -> TokenStream
where
F: FnMut(&BindingInfo) -> TokenStream,
G: FnMut(&BindingInfo) -> Option<TokenStream>,
{
let mut s = synstructure::Structure::new(input);
s.variants_mut().iter_mut().for_each(|v| {
v.bind_with(|_| bind_style);
});
s.each_variant(|variant| {
let (mapped, mapped_fields) = value(variant, "mapped");
let fields_pairs = variant.bindings().iter().zip(mapped_fields.iter());
let mut computations = quote!();
computations.append_all(fields_pairs.map(|(field, mapped_field)| {
let expr = f(field);
quote! { let #mapped_field = #expr; }
}));
computations.append_all(
mapped_fields
.iter()
.map(|mapped_field| match g(mapped_field) {
Some(expr) => quote! { let #mapped_field = #expr; },
None => quote!(),
}),
);
computations.append_all(mapped);
Some(computations)
})
}
pub fn fmap_trait_output(input: &DeriveInput, trait_path: &Path, trait_output: &Ident) -> Path {
let segment = PathSegment {
ident: input.ident.clone(),
arguments: PathArguments::AngleBracketed(AngleBracketedGenericArguments {
args: input
.generics
.params
.iter()
.map(|arg| match arg {
&GenericParam::Lifetime(ref data) => {
GenericArgument::Lifetime(data.lifetime.clone())
},
&GenericParam::Type(ref data) => {
let ident = &data.ident;
GenericArgument::Type(parse_quote!(<#ident as #trait_path>::#trait_output))
},
&GenericParam::Const(ref inner) => {
let ident = &inner.ident;
GenericArgument::Const(parse_quote!(#ident))
},
})
.collect(),
colon2_token: Default::default(),
gt_token: Default::default(),
lt_token: Default::default(),
}),
};
segment.into()
}
pub fn map_type_params<F>(ty: &Type, params: &[&TypeParam], self_type: &Path, f: &mut F) -> Type
where
F: FnMut(&Ident) -> Type,
{
match *ty {
Type::Slice(ref inner) => Type::from(TypeSlice {
elem: Box::new(map_type_params(&inner.elem, params, self_type, f)),
..inner.clone()
}),
Type::Array(ref inner) => {
//ref ty, ref expr) => {
Type::from(TypeArray {
elem: Box::new(map_type_params(&inner.elem, params, self_type, f)),
..inner.clone()
})
},
ref ty @ Type::Never(_) => ty.clone(),
Type::Tuple(ref inner) => Type::from(TypeTuple {
elems: inner
.elems
.iter()
.map(|ty| map_type_params(&ty, params, self_type, f))
.collect(),
..inner.clone()
}),
Type::Path(TypePath {
qself: None,
ref path,
}) => {
if let Some(ident) = path_to_ident(path) {
if params.iter().any(|ref param| ¶m.ident == ident) {
return f(ident);
}
if ident == "Self" {
return Type::from(TypePath {
qself: None,
path: self_type.clone(),
});
}
}
Type::from(TypePath {
qself: None,
path: map_type_params_in_path(path, params, self_type, f),
})
},
Type::Path(TypePath {
ref qself,
ref path,
}) => Type::from(TypePath {
qself: qself.as_ref().map(|qself| QSelf {
ty: Box::new(map_type_params(&qself.ty, params, self_type, f)),
position: qself.position,
..qself.clone()
}),
path: map_type_params_in_path(path, params, self_type, f),
}),
Type::Paren(ref inner) => Type::from(TypeParen {
elem: Box::new(map_type_params(&inner.elem, params, self_type, f)),
..inner.clone()
}),
Type::Group(ref inner) => Type::from(TypeGroup {
elem: Box::new(map_type_params(&inner.elem, params, self_type, f)),
..inner.clone()
}),
ref ty => panic!("type {:?} cannot be mapped yet", ty),
}
}
fn map_type_params_in_path<F>(
path: &Path,
params: &[&TypeParam],
self_type: &Path,
f: &mut F,
) -> Path
where
F: FnMut(&Ident) -> Type,
{
Path {
leading_colon: path.leading_colon,
segments: path
.segments
.iter()
.map(|segment| PathSegment {
ident: segment.ident.clone(),
arguments: match segment.arguments {
PathArguments::AngleBracketed(ref data) => {
PathArguments::AngleBracketed(AngleBracketedGenericArguments {
args: data
.args
.iter()
.map(|arg| match arg {
ty @ &GenericArgument::Lifetime(_) => ty.clone(),
&GenericArgument::Type(ref data) => GenericArgument::Type(
map_type_params(data, params, self_type, f),
),
&GenericArgument::Binding(ref data) => {
GenericArgument::Binding(Binding {
ty: map_type_params(&data.ty, params, self_type, f),
..data.clone()
})
},
ref arg => panic!("arguments {:?} cannot be mapped yet", arg),
})
.collect(),
..data.clone()
})
},
ref arg @ PathArguments::None => arg.clone(),
ref parameters => panic!("parameters {:?} cannot be mapped yet", parameters),
},
})
.collect(),
}
}
fn path_to_ident(path: &Path) -> Option<&Ident> {
match *path {
Path {
leading_colon: None,
ref segments,
} if segments.len() == 1 => {
if segments[0].arguments.is_empty() {
Some(&segments[0].ident)
} else {
None
}
},
_ => None,
}
}
pub fn parse_field_attrs<A>(field: &Field) -> A
where
A: FromField,
{
match A::from_field(field) {
Ok(attrs) => attrs,
Err(e) => panic!("failed to parse field attributes: {}", e),
}
}
pub fn parse_input_attrs<A>(input: &DeriveInput) -> A
where
A: FromDeriveInput,
{
match A::from_derive_input(input) {
Ok(attrs) => attrs,
Err(e) => panic!("failed to parse input attributes: {}", e),
}
}
pub fn parse_variant_attrs_from_ast<A>(variant: &VariantAst) -> A
where
A: FromVariant,
{
let v = Variant {
ident: variant.ident.clone(),
attrs: variant.attrs.to_vec(),
fields: variant.fields.clone(),
discriminant: variant.discriminant.clone(),
};
parse_variant_attrs(&v)
}
pub fn parse_variant_attrs<A>(variant: &Variant) -> A
where
A: FromVariant,
{
match A::from_variant(variant) {
Ok(attrs) => attrs,
Err(e) => panic!("failed to parse variant attributes: {}", e),
}
}
pub fn ref_pattern<'a>(
variant: &'a VariantInfo,
prefix: &str,
) -> (TokenStream, Vec<BindingInfo<'a>>) {
let mut v = variant.clone();
v.bind_with(|_| BindStyle::Ref);
v.bindings_mut().iter_mut().for_each(|b| {
b.binding = Ident::new(&format!("{}_{}", b.binding, prefix), Span::call_site())
});
(v.pat(), v.bindings().to_vec())
}
pub fn value<'a>(variant: &'a VariantInfo, prefix: &str) -> (TokenStream, Vec<BindingInfo<'a>>) {
let mut v = variant.clone();
v.bindings_mut().iter_mut().for_each(|b| {
b.binding = Ident::new(&format!("{}_{}", b.binding, prefix), Span::call_site())
});
v.bind_with(|_| BindStyle::Move);
(v.pat(), v.bindings().to_vec())
}
/// Transforms "FooBar" to "foo-bar".
///
/// If the first Camel segment is "Moz", "Webkit", or "Servo", the result string
/// is prepended with "-".
pub fn to_css_identifier(mut camel_case: &str) -> String {
camel_case = camel_case.trim_end_matches('_');
let mut first = true;
let mut result = String::with_capacity(camel_case.len());
while let Some(segment) = split_camel_segment(&mut camel_case) {
if first {
match segment {
"Moz" | "Webkit" | "Servo" => first = false,
_ => {},
}
}
if !first {
result.push('-');
}
first = false;
result.push_str(&segment.to_lowercase());
}
result
}
/// Transforms foo-bar to FOO_BAR.
pub fn to_scream_case(css_case: &str) -> String {
css_case.to_uppercase().replace('-', "_")
}
/// Given "FooBar", returns "Foo" and sets `camel_case` to "Bar".
fn split_camel_segment<'input>(camel_case: &mut &'input str) -> Option<&'input str> {
let index = match camel_case.chars().next() {
None => return None,
Some(ch) => ch.len_utf8(),
};
let end_position = camel_case[index..]
.find(char::is_uppercase)
.map_or(camel_case.len(), |pos| index + pos);
let result = &camel_case[..end_position];
*camel_case = &camel_case[end_position..];
Some(result)
}
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