C89 allowed a type specifier to be elided with the resulting type being int, aka implicit int behavior. This feature was subsequently removed in C99 without a deprecation period, so implementations continued to support the feature. Now, as with implicit function declarations, is a good time to reevaluate the need for this support. This patch allows -Wimplicit-int to issue warnings in C89 mode (off by default), defaults the warning to an error in C99 through C17, and disables support for the feature entirely in C2x. It also removes a warning about missing declaration specifiers that really was just an implicit int warning in disguise and other minor related cleanups.
151 lines
5.2 KiB
C++
151 lines
5.2 KiB
C++
// RUN: %clang_cc1 -fsyntax-only -verify %s
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// RUN: %clang_cc1 -fsyntax-only -verify -std=c++98 %s
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// RUN: %clang_cc1 -fsyntax-only -verify -std=c++11 %s
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template<template<typename T> class X> struct A; // expected-note 2{{previous template template parameter is here}}
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template<template<typename T, int I> class X> struct B; // expected-note{{previous template template parameter is here}}
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template<template<int I> class X> struct C; // expected-note 2{{previous non-type template parameter with type 'int' is here}}
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template<class> struct X; // expected-note{{too few template parameters in template template argument}}
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template<int N> struct Y; // expected-note{{template parameter has a different kind in template argument}}
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template<long N> struct Ylong; // expected-note{{template non-type parameter has a different type 'long' in template argument}}
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template<const int &N> struct Yref; // expected-note{{template non-type parameter has a different type 'const int &' in template argument}}
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namespace N {
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template<class> struct Z;
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}
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template<class, class> struct TooMany; // expected-note{{too many template parameters in template template argument}}
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A<X> *a1;
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A<N::Z> *a2;
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A< ::N::Z> *a3;
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A<Y> *a4; // expected-error{{template template argument has different template parameters than its corresponding template template parameter}}
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A<TooMany> *a5; // expected-error{{template template argument has different template parameters than its corresponding template template parameter}}
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B<X> *a6; // expected-error{{template template argument has different template parameters than its corresponding template template parameter}}
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C<Y> *a7;
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C<Ylong> *a8; // expected-error{{template template argument has different template parameters than its corresponding template template parameter}}
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C<Yref> *a9; // expected-error{{template template argument has different template parameters than its corresponding template template parameter}}
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template<typename T> void f(int);
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A<f> *a9; // expected-error{{must be a class template}}
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// Evil digraph '<:' is parsed as '[', expect error.
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A<::N::Z> *a10;
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#if __cplusplus <= 199711L
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// expected-error@-2 {{found '<::' after a template name which forms the digraph '<:' (aka '[') and a ':', did you mean '< ::'?}}
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#endif
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// Do not do a digraph correction here.
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A<: :N::Z> *a11; // expected-error{{expected expression}} \
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expected-error{{a type specifier is required for all declarations}}
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// PR7807
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namespace N {
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template <typename, typename = int>
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struct X
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{ };
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template <typename ,int>
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struct Y
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{ X<int> const_ref(); };
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template <template<typename,int> class TT, typename T, int N>
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int operator<<(int, TT<T, N> a) { // expected-note{{candidate template ignored}}
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0 << a.const_ref(); // expected-error{{invalid operands to binary expression ('int' and 'X<int>')}}
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}
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void f0( Y<int,1> y){ 1 << y; } // expected-note{{in instantiation of function template specialization 'N::operator<<<N::Y, int, 1>' requested here}}
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}
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// PR12179
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template <typename Primitive, template <Primitive...> class F>
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#if __cplusplus <= 199711L
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// expected-warning@-2 {{variadic templates are a C++11 extension}}
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#endif
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struct unbox_args {
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typedef typename Primitive::template call<F> x;
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};
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template <template <typename> class... Templates>
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#if __cplusplus <= 199711L
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// expected-warning@-2 {{variadic templates are a C++11 extension}}
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#endif
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struct template_tuple {
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#if __cplusplus >= 201103L
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static constexpr int N = sizeof...(Templates);
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#endif
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};
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template <typename T>
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struct identity {};
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template <template <typename> class... Templates>
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#if __cplusplus <= 199711L
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// expected-warning@-2 {{variadic templates are a C++11 extension}}
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#endif
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template_tuple<Templates...> f7() {}
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#if __cplusplus >= 201103L
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struct S : public template_tuple<identity, identity> {
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static_assert(N == 2, "Number of template arguments incorrect");
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};
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#endif
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void foo() {
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f7<identity>();
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}
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namespace CheckDependentNonTypeParamTypes {
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template<template<typename T, typename U, T v> class X> struct A {
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void f() {
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X<int, void*, 3> x; // expected-error {{does not refer to any declaration}}
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}
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void g() {
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X<int, long, 3> x;
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}
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void h() {
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// FIXME: If we accept A<B> at all, it's not obvious what should happen
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// here. While parsing the template, we form
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// X<unsigned char, int, (unsigned char)1234>
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// but in the final instantiation do we get
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// B<unsigned char, int, (int)1234>
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// or
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// B<unsigned char, int, (int)(unsigned char)1234>
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// ?
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X<unsigned char, int, 1234> x;
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int check[x.value == 1234 ? 1 : -1];
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}
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};
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template<typename T, typename U, U v> struct B { // expected-note {{parameter}}
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static const U value = v;
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};
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// FIXME: This should probably be rejected, but the rules are at best unclear.
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A<B> ab;
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void use() {
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ab.f(); // expected-note {{instantiation of}}
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ab.g();
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ab.h();
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}
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}
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namespace PR32185 {
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template<template<typename T, T> class U> struct A {};
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template<template<typename T, T> class U> struct B : A<U> {};
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}
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namespace PR10147 {
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template<typename T> struct A {};
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template<typename T = int> struct A;
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template<template<typename...> class A> void f(A<int>*) { A<> a; } // expected-warning 0-1{{extension}}
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void g() { f((A<>*)0); }
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}
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