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605eacafa7
Summary: The trial parse for declarative syntax accepts an invalid pack declaration syntax, which is ambiguous with valid pack expansions of expressions. This commit removes the invalid pack declaration syntax to avoid mistaking valid pack expansions as invalid declarator components. Additionally, the trial parse of a //template-argument-list// then needs to handle the optional ellipsis that is part of that grammar, as opposed to relying on the trial parse for declarators accepting stray ellipses. Reviewers: rsmith, rcraik, aaron.ballman Reviewed By: rsmith Subscribers: cfe-commits Differential Revision: https://reviews.llvm.org/D33339 llvm-svn: 303472
178 lines
6.2 KiB
C++
178 lines
6.2 KiB
C++
// RUN: %clang_cc1 -fsyntax-only -verify -std=c++11 %s
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// New exciting ambiguities in C++11
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// final 'context sensitive' mess.
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namespace final {
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struct S { int n; };
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struct T { int n; };
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namespace N {
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int n;
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// These declare variables named final..
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extern struct S final;
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extern struct S final [[]];
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extern struct S final, foo;
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struct S final = S();
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// This defines a class, not a variable, even though it would successfully
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// parse as a variable but not as a class. DR1318's wording suggests that
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// this disambiguation is only performed on an ambiguity, but that was not
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// the intent.
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struct S final { // expected-note {{here}}
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int(n) // expected-error {{expected ';'}}
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};
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// This too.
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struct T final : S {}; // expected-error {{base 'S' is marked 'final'}}
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struct T bar : S {}; // expected-error {{expected ';' after top level declarator}} expected-error {{expected unqualified-id}}
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}
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// _Alignas isn't allowed in the places where alignas is. We used to
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// assert on this.
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struct U final _Alignas(4) {}; // expected-error 3{{}} expected-note {{}}
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}
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// enum versus bitfield mess.
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namespace bitfield {
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enum E {};
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struct T {
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constexpr T() {}
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constexpr T(int) {}
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constexpr T(T, T, T, T) {}
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constexpr T operator=(T) const { return *this; }
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constexpr operator int() const { return 4; }
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};
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constexpr T a, b, c, d;
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struct S1 {
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enum E : T ( a = 1, b = 2, c = 3, 4 ); // ok, declares a bitfield
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};
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// This could be a bit-field.
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struct S2 {
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enum E : T { a = 1, b = 2, c = 3, 4 }; // expected-error {{non-integral type}} expected-error {{expected identifier}}
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};
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struct S3 {
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enum E : int { a = 1, b = 2, c = 3, d }; // ok, defines an enum
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};
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// Ambiguous.
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struct S4 {
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enum E : int { a = 1 }; // ok, defines an enum
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};
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// This could be a bit-field, but would be ill-formed due to the anonymous
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// member being initialized.
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struct S5 {
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enum E : int { a = 1 } { b = 2 }; // expected-error {{expected ';' after enum}} expected-error {{expected member name}}
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};
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// This could be a bit-field.
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struct S6 {
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enum E : int { 1 }; // expected-error {{expected identifier}}
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};
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struct U {
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constexpr operator T() const { return T(); } // expected-note 2{{candidate}}
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};
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// This could be a bit-field.
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struct S7 {
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enum E : int { a = U() }; // expected-error {{no viable conversion}}
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};
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// This could be a bit-field, and does not conform to the grammar of an
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// enum definition, because 'id(U())' is not a constant-expression.
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constexpr const U &id(const U &u) { return u; }
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struct S8 {
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enum E : int { a = id(U()) }; // expected-error {{no viable conversion}}
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};
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}
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namespace trailing_return {
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typedef int n;
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int a;
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struct S {
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S(int);
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S *operator()(...) const;
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int n;
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};
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namespace N {
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void f() {
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// This parses as a function declaration, but DR1223 makes the presence of
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// 'auto' be used for disambiguation.
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S(a)()->n; // ok, expression; expected-warning{{expression result unused}}
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S(a)(int())->n; // ok, expression; expected-warning{{expression result unused}}
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auto(a)()->n; // ok, function declaration
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auto(b)(int())->n; // ok, function declaration
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using T = decltype(a);
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using T = auto() -> n;
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}
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}
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}
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namespace ellipsis {
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template<typename...T>
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struct S {
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void e(S::S()); // expected-error {{is a constructor name}}
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void f(S(...args[sizeof(T)])); // expected-note {{here}} expected-note {{here}}
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void f(S(...args)[sizeof(T)]); // expected-error {{redeclared}}
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void f(S ...args[sizeof(T)]); // expected-error {{redeclared}}
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void g(S(...[sizeof(T)])); // expected-note {{here}} expected-warning {{ISO C++11 requires a parenthesized pack declaration to have a name}}
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void g(S(...)[sizeof(T)]); // expected-error {{function cannot return array type}}
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void g(S ...[sizeof(T)]); // expected-error {{redeclared}}
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void h(T(...)); // function type, expected-error {{unexpanded parameter pack}}
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void h(T...); // pack expansion, ok
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void i(int(T...)); // expected-note {{here}}
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void i(int(T...a)); // expected-error {{redeclared}}
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void i(int(T, ...)); // function type, expected-error {{unexpanded parameter pack}}
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void i(int(T, ...a)); // expected-error {{expected ')'}} expected-note {{to match}} expected-error {{unexpanded parameter pack}}
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void j(int(int...)); // function type, ok
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void j(int(int...a)); // expected-error {{does not contain any unexpanded parameter packs}}
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void j(T(int...)); // expected-error {{unexpanded parameter pack}}
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void j(T(T...)); // expected-error {{unexpanded parameter pack}}
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void k(int(...)(T)); // expected-error {{cannot return function type}}
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void k(int ...(T));
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void l(int(&...)(T)); // expected-warning {{ISO C++11 requires a parenthesized pack declaration to have a name}}
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void l(int(*...)(T)); // expected-warning {{ISO C++11 requires a parenthesized pack declaration to have a name}}
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void l(int(S<int>::*...)(T)); // expected-warning {{ISO C++11 requires a parenthesized pack declaration to have a name}}
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};
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struct CtorSink {
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template <typename ...T> constexpr CtorSink(T &&...t) { }
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constexpr operator int() const { return 42; }
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};
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template <unsigned ...N> struct UnsignedTmplArgSink;
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template <typename ...T>
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void foo(int x, T ...t) {
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// Have a variety of cases where the syntax is technically unambiguous, but hinges on careful treatment of ellipses.
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CtorSink(t ...), x; // ok, expression; expected-warning 2{{expression result unused}}
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int x0(CtorSink(t ...)); // ok, declares object x0
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int *p0 = &x0;
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(void)p0;
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CtorSink x1(int(t) ..., int(x)); // ok, declares object x1
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CtorSink *p1 = &x1;
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(void)p1;
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UnsignedTmplArgSink<T(CtorSink(t ...)) ...> *t0; // ok
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UnsignedTmplArgSink<((T *)0, 42u) ...> **t0p = &t0;
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}
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template void foo(int, int, int); // expected-note {{in instantiation of function template specialization 'ellipsis::foo<int, int>' requested here}}
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}
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namespace braced_init_list {
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struct X {
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void foo() {}
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};
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void (*pf1)() {};
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void (X::*pmf1)() {&X::foo};
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void (X::*pmf2)() = {&X::foo};
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void test() {
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void (*pf2)() {};
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void (X::*pmf3)() {&X::foo};
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void (X::*pmf4)() = {&X::foo};
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}
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}
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