cxx2a-constraint-exprs.cpp
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// RUN: %clang_cc1 -std=c++2a -verify %s
// Make sure constraint expressions are unevaluated before being substituted
// into during satisfaction checking.
template<typename T> constexpr bool f = T::value;
// expected-error@-1 4{{type}}
namespace unevaluated {
template<typename T> concept Foo = false && f<int>;
bool k = Foo<int>;
template<typename T> requires false && f<int> struct S {};
// expected-note@-1{{because}}
using s = S<int>; // expected-error {{constraints not satisfied}}
template<typename T> void foo() requires false && f<int> { };
// expected-note@-1{{because}} expected-note@-1{{candidate template ignored}}
int a = (foo<int>(), 0); // expected-error{{no matching function}}
template<typename T> void bar() requires requires { requires false && f<int>; } { };
// expected-note@-1{{because}} expected-note@-1{{candidate template ignored}}
int b = (bar<int>(), 0); // expected-error{{no matching function}}
template<typename T> struct M { static void foo() requires false && f<int> { }; };
// expected-note@-1{{because}}
int c = (M<int>::foo(), 0);
// expected-error@-1{{invalid reference to function 'foo': constraints not satisfied}}
}
namespace constant_evaluated {
template<typename T> requires f<int[0]> struct S {};
// expected-note@-1{{in instantiation of}} expected-note@-1{{while substituting}} \
expected-error@-1{{substitution into constraint expression resulted in a non-constant expression}} \
expected-note@-1{{subexpression not valid}}
using s = S<int>;
// expected-note@-1 2{{while checking}}
template<typename T> void foo() requires f<int[1]> { };
// expected-note@-1{{in instantiation}} expected-note@-1{{while substituting}} \
expected-note@-1{{candidate template ignored}} expected-note@-1{{subexpression not valid}} \
expected-error@-1{{substitution into constraint expression resulted in a non-constant expression}}
int a = (foo<int>(), 0);
// expected-note@-1 2{{while checking}} expected-error@-1{{no matching function}} \
expected-note@-1 2{{in instantiation}}
template<typename T> void bar() requires requires { requires f<int[2]>; } { };
// expected-note@-1{{in instantiation}} expected-note@-1{{subexpression not valid}} \
expected-note@-1{{while substituting}} \
expected-error@-1{{substitution into constraint expression resulted in a non-constant expression}} \
expected-note@-1 2{{while checking the satisfaction of nested requirement}}
int b = (bar<int>(), 0);
template<typename T> struct M { static void foo() requires f<int[3]> { }; };
// expected-note@-1{{in instantiation}} expected-note@-1{{subexpression not valid}} \
expected-note@-1{{while substituting}} \
expected-error@-1{{substitution into constraint expression resulted in a non-constant expression}}
int c = (M<int>::foo(), 0);
// expected-note@-1 2{{while checking}}
}