bjoernager/rust
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Refactor struct parsing and add tests

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This commit is contained in:
Jared Roesch 2015-01-04 02:35:14 -08:00
parent c54932cb12
commit c02fac471a
5 changed files with 96 additions and 51 deletions
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121
src/libsyntax/parse/parser.rs
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@ -4875,9 +4875,6 @@ impl<'a> Parser<'a> {
self.span_err(ty.span, "`virtual` structs have been removed from the language");
}
let mut fields: Vec<StructField>;
let is_tuple_like;
// There is a special case worth noting here, as reported in issue #17904.
// If we are parsing a tuple struct it is the case that the where clause
// should follow the field list. Like so:
@ -4892,68 +4889,102 @@ impl<'a> Parser<'a> {
// Otherwise if we look ahead and see a paren we parse a tuple-style
// struct.
// Will parse the where-clause if it precedes the brace.
self.parse_where_clause(&mut generics);
let (fields, ctor_id) = if self.token.is_keyword(keywords::Where) {
self.parse_where_clause(&mut generics);
if self.eat(&token::Semi) {
// If we see a: `struct Foo<T> where T: Copy;` style decl.
(Vec::new(), Some(ast::DUMMY_NODE_ID))
} else {
// If we see: `struct Foo<T> where T: Copy { ... }`
(self.parse_record_struct_body(&class_name), None)
}
// No `where` so: `struct Foo<T>;`
} else if self.eat(&token::Semi) {
(Vec::new(), Some(ast::DUMMY_NODE_ID))
// Record-style struct definition
} else if self.token == token::OpenDelim(token::Brace) {
let fields = self.parse_record_struct_body(&class_name);
(fields, None)
// Tuple-style struct definition with optional where-clause.
} else {
let fields = self.parse_tuple_struct_body(&class_name, &mut generics);
(fields, Some(ast::DUMMY_NODE_ID))
};
(class_name,
ItemStruct(P(ast::StructDef {
fields: fields,
ctor_id: ctor_id,
}), generics),
None)
}
pub fn parse_record_struct_body(&mut self, class_name: &ast::Ident) -> Vec<StructField> {
let mut fields = Vec::new();
if self.eat(&token::OpenDelim(token::Brace)) {
// It's a record-like struct.
is_tuple_like = false;
fields = Vec::new();
while self.token != token::CloseDelim(token::Brace) {
fields.push(self.parse_struct_decl_field(true));
}
if fields.len() == 0 {
self.fatal(format!("unit-like struct definition should be \
written as `struct {};`",
token::get_ident(class_name))[]);
written as `struct {};`",
token::get_ident(class_name.clone()))[]);
}
self.bump();
} else if self.check(&token::OpenDelim(token::Paren)) {
// It's a tuple-like struct.
is_tuple_like = true;
fields = self.parse_unspanned_seq(
} else {
let token_str = self.this_token_to_string();
self.fatal(format!("expected `where`, or `{}` after struct \
name, found `{}`", "{",
token_str)[]);
}
fields
}
pub fn parse_tuple_struct_body(&mut self,
class_name: &ast::Ident,
generics: &mut ast::Generics)
-> Vec<StructField> {
// This is the case where we find `struct Foo<T>(T) where T: Copy;`
if self.check(&token::OpenDelim(token::Paren)) {
let fields = self.parse_unspanned_seq(
&token::OpenDelim(token::Paren),
&token::CloseDelim(token::Paren),
seq_sep_trailing_allowed(token::Comma),
|p| {
let attrs = p.parse_outer_attributes();
let lo = p.span.lo;
let struct_field_ = ast::StructField_ {
kind: UnnamedField(p.parse_visibility()),
id: ast::DUMMY_NODE_ID,
ty: p.parse_ty_sum(),
attrs: attrs,
};
spanned(lo, p.span.hi, struct_field_)
});
let attrs = p.parse_outer_attributes();
let lo = p.span.lo;
let struct_field_ = ast::StructField_ {
kind: UnnamedField(p.parse_visibility()),
id: ast::DUMMY_NODE_ID,
ty: p.parse_ty_sum(),
attrs: attrs,
};
spanned(lo, p.span.hi, struct_field_)
});
if fields.len() == 0 {
self.fatal(format!("unit-like struct definition should be \
written as `struct {};`",
token::get_ident(class_name))[]);
written as `struct {};`",
token::get_ident(class_name.clone()))[]);
}
self.parse_where_clause(&mut generics);
self.parse_where_clause(generics);
self.expect(&token::Semi);
} else if self.token.is_keyword(keywords::Where) || self.eat(&token::Semi) {
// We can find a where clause here.
self.parse_where_clause(&mut generics);
// It's a unit-like struct.
is_tuple_like = true;
fields = Vec::new();
fields
// This is the case where we just see struct Foo<T> where T: Copy;
} else if self.token.is_keyword(keywords::Where) {
self.parse_where_clause(generics);
self.expect(&token::Semi);
Vec::new()
// This case is where we see: `struct Foo<T>;`
} else {
let token_str = self.this_token_to_string();
self.fatal(format!("expected `{}`, `(`, or `;` after struct \
name, found `{}`", "{",
token_str)[])
self.fatal(format!("expected `where`, `{}`, `(`, or `;` after struct \
name, found `{}`", "{", token_str)[]);
}
let _ = ast::DUMMY_NODE_ID; // FIXME: Workaround for crazy bug.
let new_id = ast::DUMMY_NODE_ID;
(class_name,
ItemStruct(P(ast::StructDef {
fields: fields,
ctor_id: if is_tuple_like { Some(new_id) } else { None },
}), generics),
None)
}
/// Parse a structure field declaration