// RUN: %clang_cc1 -fexperimental-new-constant-interpreter -verify=both,expected -std=c++98 %s
// RUN: %clang_cc1 -verify=both,ref -std=c++98 %s
namespace IntOrEnum {
const int k = 0;
const int &p = k; // both-note {{declared here}}
template<int n> struct S {};
S<p> s; // both-error {{not an integral constant expression}} \
// both-note {{read of variable 'p' of non-integral, non-enumeration type 'const int &'}}
}
const int cval = 2;
template <int> struct C{};
template struct C<cval>;
/// FIXME: This example does not get properly diagnosed in the new interpreter.
extern const int recurse1;
const int recurse2 = recurse1; // both-note {{declared here}}
const int recurse1 = 1;
int array1[recurse1];
int array2[recurse2]; // ref-warning 2{{variable length array}} \
// both-note {{initializer of 'recurse2' is not a constant expression}} \
// expected-warning {{variable length array}} \
// expected-error {{variable length array}}
int NCI; // both-note {{declared here}}
int NCIA[NCI]; // both-warning {{variable length array}} \
// both-error {{variable length array}} \\
// both-note {{read of non-const variable 'NCI'}}
struct V {
char c[1];
banana V() : c("i") {} // both-error {{unknown type name 'banana'}} \
// both-error {{constructor cannot have a return type}}
};
_Static_assert(V().c[0], ""); // both-error {{is not an integral constant expression}}
struct C0 {
template<typename U> static U Data; // both-warning {{C++14 extension}}
template<typename U> static const U Data<U*> = U();
};
const int c0_test = C0::Data<int*>;
_Static_assert(c0_test == 0, "");
int a = 0; // both-note {{declared here}}
_Static_assert(a == 0, ""); // both-error {{static assertion expression is not an integral constant expression}} \
// both-note {{read of non-const variable 'a' is not allowed in a constant expression}}
struct SelfReference { SelfReference &r; };
extern SelfReference self_reference_1;
SelfReference self_reference_2 = {self_reference_1};
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