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use crate::deriving::generic::ty::*;
use crate::deriving::generic::*;
use crate::deriving::{path_local, path_std};
use rustc_ast::ptr::P;
use rustc_ast::{BinOpKind, BorrowKind, Expr, ExprKind, MetaItem, Mutability};
use rustc_expand::base::{Annotatable, ExtCtxt};
use rustc_span::symbol::sym;
use rustc_span::Span;
use thin_vec::thin_vec;
pub fn expand_deriving_partial_eq(
cx: &mut ExtCtxt<'_>,
span: Span,
mitem: &MetaItem,
item: &Annotatable,
push: &mut dyn FnMut(Annotatable),
is_const: bool,
) {
fn cs_eq(cx: &mut ExtCtxt<'_>, span: Span, substr: &Substructure<'_>) -> BlockOrExpr {
let base = true;
let expr = cs_fold(
true, cx,
span,
substr,
|cx, fold| match fold {
CsFold::Single(field) => {
let [other_expr] = &field.other_selflike_exprs[..] else {
cx.span_bug(field.span, "not exactly 2 arguments in `derive(PartialEq)`");
};
let convert = |expr: &P<Expr>| {
if let ExprKind::AddrOf(BorrowKind::Ref, Mutability::Not, inner) =
&expr.kind
{
inner.clone()
} else {
cx.expr_deref(field.span, expr.clone())
}
};
cx.expr_binary(
field.span,
BinOpKind::Eq,
convert(&field.self_expr),
convert(other_expr),
)
}
CsFold::Combine(span, expr1, expr2) => {
cx.expr_binary(span, BinOpKind::And, expr1, expr2)
}
CsFold::Fieldless => cx.expr_bool(span, base),
},
);
BlockOrExpr::new_expr(expr)
}
super::inject_impl_of_structural_trait(
cx,
span,
item,
path_std!(marker::StructuralPartialEq),
push,
);
let attrs = thin_vec![cx.attr_word(sym::inline, span)];
let methods = vec![MethodDef {
name: sym::eq,
generics: Bounds::empty(),
explicit_self: true,
nonself_args: vec![(self_ref(), sym::other)],
ret_ty: Path(path_local!(bool)),
attributes: attrs,
unify_fieldless_variants: true,
combine_substructure: combine_substructure(Box::new(|a, b, c| cs_eq(a, b, c))),
}];
let trait_def = TraitDef {
span,
path: path_std!(cmp::PartialEq),
skip_path_as_bound: false,
additional_bounds: Vec::new(),
supports_unions: false,
methods,
associated_types: Vec::new(),
is_const,
};
trait_def.expand(cx, mitem, item, push)
}