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4409a83c29
Previously, a lambda expression in a dependent context with a default argument
containing an immediately invoked lambda expression would produce a closure
class object that, if invoked such that the default argument was used, resulted
in a compiler crash or one of the following assertion failures during code
generation. The failures occurred regardless of whether the lambda expressions
were dependent.
clang/lib/CodeGen/CGCall.cpp:
Assertion `(isGenericMethod || Ty->isVariablyModifiedType() || Ty.getNonReferenceType()->isObjCRetainableType() || getContext() .getCanonicalType(Ty.getNonReferenceType()) .getTypePtr() == getContext().getCanonicalType((*Arg)->getType()).getTypePtr()) && "type mismatch in call argument!"' failed.
clang/lib/AST/Decl.cpp:
Assertion `!Init->isValueDependent()' failed.
Default arguments in declarations in local context are instantiated along with
their enclosing function or variable template (since such declarations can't
be explicitly specialized). Previously, such instantiations were performed at
the same time that their associated parameters were instantiated. However, that
approach fails in cases like the following in which the context for the inner
lambda is the outer lambda, but construction of the outer lambda is dependent
on the parameters of the inner lambda. This change resolves this dependency by
delyaing instantiation of default arguments in local contexts until after
construction of the enclosing context.
template <typename T>
auto f() {
return [](T = []{ return T{}; }()) { return 0; };
}
Refactoring included with this change results in the same code now being used
to instantiate default arguments that appear in local context and those that
are only instantiated when used at a call site; previously, such code was
duplicated and out of sync.
Fixes https://github.com/llvm/llvm-project/issues/49178
Reviewed By: erichkeane
Differential Revision: https://reviews.llvm.org/D133500
233 lines
6.9 KiB
C++
233 lines
6.9 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<typename T, int N = 2> struct X; // expected-note{{template is declared here}}
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X<int, 1> *x1;
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X<int> *x2;
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X<> *x3; // expected-error{{too few template arguments for class template 'X'}}
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template<typename U = float, int M> struct X;
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X<> *x4;
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template<typename T = int> struct Z { };
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template struct Z<>;
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// PR4362
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template<class T> struct a { };
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template<> struct a<int> { static const bool v = true; };
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template<class T, bool = a<T>::v> struct p { }; // expected-error {{no member named 'v'}}
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template struct p<bool>; // expected-note {{in instantiation of default argument for 'p<bool>' required here}}
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template struct p<int>;
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// PR5187
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template<typename T, typename U>
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struct A;
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template<typename T, typename U = T>
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struct A;
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template<typename T, typename U>
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struct A {
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void f(A<T>);
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};
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template<typename T>
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struct B { };
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template<>
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struct B<void> {
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typedef B<void*> type;
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};
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// Nested default arguments for template parameters.
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template<typename T> struct X1 { };
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template<typename T>
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struct X2 {
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template<typename U = typename X1<T>::type> // expected-error{{no type named 'type' in 'X1<int>'}} \
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// expected-error{{no type named 'type' in 'X1<char>'}}
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struct Inner1 { }; // expected-note{{template is declared here}}
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template<T Value = X1<T>::value> // expected-error{{no member named 'value' in 'X1<int>'}} \
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// expected-error{{no member named 'value' in 'X1<char>'}}
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struct NonType1 { }; // expected-note{{template is declared here}}
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template<T Value>
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struct Inner2 { };
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template<typename U>
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struct Inner3 {
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template<typename X = T, typename V = U>
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struct VeryInner { };
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template<T Value1 = sizeof(T), T Value2 = sizeof(U),
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T Value3 = Value1 + Value2>
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struct NonType2 { };
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};
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};
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X2<int> x2i; // expected-note{{in instantiation of template class 'X2<int>' requested here}}
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X2<int>::Inner1<float> x2iif;
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X2<int>::Inner1<> x2bad; // expected-error{{too few template arguments for class template 'Inner1'}}
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X2<int>::NonType1<'a'> x2_nontype1;
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X2<int>::NonType1<> x2_nontype1_bad; // expected-error{{too few template arguments for class template 'NonType1'}}
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// Check multi-level substitution into template type arguments
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X2<int>::Inner3<float>::VeryInner<> vi;
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X2<char>::Inner3<int>::NonType2<> x2_deep_nontype; // expected-note{{in instantiation of template class 'X2<char>' requested here}}
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template<typename T, typename U>
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struct is_same { static const bool value = false; };
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template<typename T>
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struct is_same<T, T> { static const bool value = true; };
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int array1[is_same<__typeof__(vi),
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X2<int>::Inner3<float>::VeryInner<int, float> >::value? 1 : -1];
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int array2[is_same<__typeof(x2_deep_nontype),
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X2<char>::Inner3<int>::NonType2<sizeof(char), sizeof(int),
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sizeof(char)+sizeof(int)> >::value? 1 : -1];
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// Template template parameter defaults
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template<template<typename T> class X = X2> struct X3 { };
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int array3[is_same<X3<>, X3<X2> >::value? 1 : -1];
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struct add_pointer {
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template<typename T>
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struct apply {
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typedef T* type;
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};
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};
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template<typename T, template<typename> class X = T::template apply>
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struct X4;
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int array4[is_same<X4<add_pointer>,
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X4<add_pointer, add_pointer::apply> >::value? 1 : -1];
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template<int> struct X5 {}; // expected-note{{has a different type 'int'}}
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template<long> struct X5b {};
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template<typename T,
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template<T> class B = X5> // expected-error{{template template argument has different}} \
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// expected-note{{previous non-type template parameter}}
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struct X6 {};
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X6<int> x6a;
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X6<long> x6b; // expected-note{{while checking a default template argument}}
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X6<long, X5b> x6c;
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template<template<class> class X = B<int> > struct X7; // expected-error{{must be a class template}}
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namespace PR9643 {
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template<typename T> class allocator {};
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template<typename T, typename U = allocator<T> > class vector {};
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template<template<typename U, typename = allocator<U> > class container,
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typename DT>
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container<DT> initializer(const DT& d) {
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return container<DT>();
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}
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void f() {
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vector<int, allocator<int> > v = initializer<vector>(5);
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}
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}
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namespace PR16288 {
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template<typename X>
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struct S {
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template<typename T = int, typename U>
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#if __cplusplus <= 199711L // C++03 or earlier modes
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// expected-warning@-2 {{default template arguments for a function template are a C++11 extension}}
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#endif
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void f();
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};
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template<typename X>
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template<typename T, typename U>
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void S<X>::f() {}
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}
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namespace DR1635 {
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template <class T> struct X {
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template <class U = typename T::type> static void f(int) {} // expected-error {{type 'int' cannot be used prior to '::' because it has no members}}
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#if __cplusplus <= 199711L // C++03 or earlier modes
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// expected-warning@-2 {{default template arguments for a function template are a C++11 extension}}
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#endif
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static void f(...) {}
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};
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int g() { X<int>::f(0); } // expected-note {{in instantiation of template class 'DR1635::X<int>' requested here}}
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}
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namespace NondefDecls {
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template<typename T> void f1() {
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int g1(int defarg = T::error); // expected-error{{type 'int' cannot be used prior to '::' because it has no members}} \
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// expected-note {{in instantiation of default function argument expression for 'g1<int>' required here}}
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}
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template void f1<int>(); // expected-note{{in instantiation of function template specialization 'NondefDecls::f1<int>' requested here}}
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}
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template <typename T>
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struct C {
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C(T t = ); // expected-error {{expected expression}}
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};
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C<int> obj;
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namespace PR26134 {
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// Make sure when substituting default template arguments we do it in the current context.
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template<class T, bool Val = T::value>
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struct X {};
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template<bool B> struct Y {
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void f() { X<Y> xy; }
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static const bool value = B;
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};
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namespace ns1 {
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template<class T0>
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struct X {
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template<bool B = T0::value> struct XInner { static const bool value = B; };
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};
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template<bool B> struct S { static const bool value = B; };
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#if __cplusplus > 199711L
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template<bool B> struct Y {
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static constexpr bool f() { return typename X<S<B>>::template XInner<>{}.value; }
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static_assert(f() == B, "");
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};
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Y<true> y;
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Y<false> y2;
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#endif
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} // end ns1
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} // end ns PR26134
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namespace friends {
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namespace ns {
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template<typename> struct A {
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template<typename> friend void f();
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template<typename> friend struct X;
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};
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template<typename = int> void f(); // expected-warning 0-1{{extension}}
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template<typename = int> struct X;
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A<int> a;
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}
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namespace ns {
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void g() { f(); }
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X<int> *p;
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}
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}
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namespace unevaluated {
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int a;
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template<int = 0> int f(int = a); // expected-warning 0-1{{extension}}
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int k = sizeof(f());
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}
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