use super::*; // test trait_item // trait T: Hash + Clone where U: Copy {} pub(super) fn trait_def(p: &mut Parser) { assert!(p.at(TRAIT_KW)); p.bump(); name(p); type_params::opt_type_param_list(p); if p.at(COLON) { type_params::bounds(p); } type_params::opt_where_clause(p); if p.at(L_CURLY) { trait_item_list(p); } else { p.error("expected `{`"); } } // test trait_item_list // impl F { // type A: Clone; // const B: i32; // fn foo() {} // fn bar(&self); // } fn trait_item_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 an item"); continue; } item_or_macro(p, true, ItemFlavor::Trait); } p.expect(R_CURLY); m.complete(p, ITEM_LIST); } // test impl_item // impl Foo {} pub(super) fn impl_item(p: &mut Parser) { assert!(p.at(IMPL_KW)); p.bump(); if choose_type_params_over_qpath(p) { type_params::opt_type_param_list(p); } // TODO: never type // impl ! {} // test impl_item_neg // impl !Send for X {} p.eat(EXCL); types::type_(p); if p.eat(FOR_KW) { types::type_(p); } type_params::opt_where_clause(p); if p.at(L_CURLY) { impl_item_list(p); } else { p.error("expected `{`"); } } // test impl_item_list // impl F { // type A = i32; // const B: i32 = 92; // fn foo() {} // fn bar(&self) {} // } fn impl_item_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 an item"); continue; } item_or_macro(p, true, ItemFlavor::Mod); } p.expect(R_CURLY); m.complete(p, ITEM_LIST); } fn choose_type_params_over_qpath(p: &Parser) -> bool { // There's an ambiguity between generic parameters and qualified paths in impls. // If we see `<` it may start both, so we have to inspect some following tokens. // The following combinations can only start generics, // but not qualified paths (with one exception): // `<` `>` - empty generic parameters // `<` `#` - generic parameters with attributes // `<` (LIFETIME|IDENT) `>` - single generic parameter // `<` (LIFETIME|IDENT) `,` - first generic parameter in a list // `<` (LIFETIME|IDENT) `:` - generic parameter with bounds // `<` (LIFETIME|IDENT) `=` - generic parameter with a default // The only truly ambiguous case is // `<` IDENT `>` `::` IDENT ... // we disambiguate it in favor of generics (`impl ::absolute::Path { ... }`) // because this is what almost always expected in practice, qualified paths in impls // (`impl ::AssocTy { ... }`) aren't even allowed by type checker at the moment. if !p.at(L_ANGLE) { return false; } if p.nth(1) == POUND || p.nth(1) == R_ANGLE { return true; } (p.nth(1) == LIFETIME || p.nth(1) == IDENT) && (p.nth(2) == R_ANGLE || p.nth(2) == COMMA || p.nth(2) == COLON || p.nth(2) == EQ) }