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use super::*;
pub(super) fn struct_def(p: &mut Parser, m: Marker, kind: SyntaxKind) {
assert!(p.at(STRUCT_KW) || p.at_contextual_kw("union"));
p.bump_remap(kind);
name_r(p, ITEM_RECOVERY_SET);
type_params::opt_type_param_list(p);
match p.current() {
WHERE_KW => {
type_params::opt_where_clause(p);
match p.current() {
SEMI => {
p.bump();
}
L_CURLY => named_field_def_list(p),
_ => {
//TODO: special case `(` error message
p.error("expected `;` or `{`");
}
}
}
SEMI if kind == STRUCT_KW => {
p.bump();
}
L_CURLY => named_field_def_list(p),
L_PAREN if kind == STRUCT_KW => {
pos_field_def_list(p);
// test tuple_struct_where
// struct Test<T>(T) where T: Clone;
// struct Test<T>(T);
type_params::opt_where_clause(p);
p.expect(SEMI);
}
_ if kind == STRUCT_KW => {
p.error("expected `;`, `{`, or `(`");
}
_ => {
p.error("expected `{`");
}
}
m.complete(p, STRUCT_DEF);
}
pub(super) fn enum_def(p: &mut Parser, m: Marker) {
assert!(p.at(ENUM_KW));
p.bump();
name_r(p, ITEM_RECOVERY_SET);
type_params::opt_type_param_list(p);
type_params::opt_where_clause(p);
if p.at(L_CURLY) {
enum_variant_list(p);
} else {
p.error("expected `{`")
}
m.complete(p, ENUM_DEF);
}
pub(crate) fn enum_variant_list(p: &mut Parser) {
assert!(p.at(L_CURLY));
let m = p.start();
p.bump();
while !p.at(EOF) && !p.at(R_CURLY) {
if p.at(L_CURLY) {
error_block(p, "expected enum variant");
continue;
}
let var = p.start();
attributes::outer_attributes(p);
if p.at(IDENT) {
name(p);
match p.current() {
L_CURLY => named_field_def_list(p),
L_PAREN => pos_field_def_list(p),
EQ => {
p.bump();
expressions::expr(p);
}
_ => (),
}
var.complete(p, ENUM_VARIANT);
} else {
var.abandon(p);
p.err_and_bump("expected enum variant");
}
if !p.at(R_CURLY) {
p.expect(COMMA);
}
}
p.expect(R_CURLY);
m.complete(p, ENUM_VARIANT_LIST);
}
pub(crate) fn named_field_def_list(p: &mut Parser) {
assert!(p.at(L_CURLY));
let m = p.start();
p.bump();
while !p.at(R_CURLY) && !p.at(EOF) {
if p.at(L_CURLY) {
error_block(p, "expected field");
continue;
}
named_field_def(p);
if !p.at(R_CURLY) {
p.expect(COMMA);
}
}
p.expect(R_CURLY);
m.complete(p, NAMED_FIELD_DEF_LIST);
fn named_field_def(p: &mut Parser) {
let m = p.start();
// test field_attrs
// struct S {
// #[serde(with = "url_serde")]
// pub uri: Uri,
// }
attributes::outer_attributes(p);
opt_visibility(p);
if p.at(IDENT) {
name(p);
p.expect(COLON);
types::type_(p);
m.complete(p, NAMED_FIELD_DEF);
} else {
m.abandon(p);
p.err_and_bump("expected field declaration");
}
}
}
fn pos_field_def_list(p: &mut Parser) {
assert!(p.at(L_PAREN));
let m = p.start();
if !p.expect(L_PAREN) {
return;
}
while !p.at(R_PAREN) && !p.at(EOF) {
let m = p.start();
// test pos_field_attrs
// struct S (
// #[serde(with = "url_serde")]
// pub Uri,
// );
//
// enum S {
// Uri(#[serde(with = "url_serde")] Uri),
// }
attributes::outer_attributes(p);
opt_visibility(p);
if !p.at_ts(types::TYPE_FIRST) {
p.error("expected a type");
m.complete(p, ERROR);
break;
}
types::type_(p);
m.complete(p, POS_FIELD_DEF);
if !p.at(R_PAREN) {
p.expect(COMMA);
}
}
p.expect(R_PAREN);
m.complete(p, POS_FIELD_DEF_LIST);
}
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