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211 lines
6.1 KiB
211 lines
6.1 KiB
// RUN: %clang_cc1 -std=c++11 -verify %s
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namespace UseBeforeDefinition {
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struct A {
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template<typename T> static constexpr T get() { return T(); }
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// ok, not a constant expression.
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int n = get<int>();
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};
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// ok, constant expression.
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constexpr int j = A::get<int>();
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template<typename T> constexpr int consume(T);
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// ok, not a constant expression.
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const int k = consume(0); // expected-note {{here}}
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template<typename T> constexpr int consume(T) { return 0; }
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// ok, constant expression.
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constexpr int l = consume(0);
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constexpr int m = k; // expected-error {{constant expression}} expected-note {{initializer of 'k'}}
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}
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namespace IntegralConst {
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template<typename T> constexpr T f(T n) { return n; }
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enum E {
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v = f(0), w = f(1) // ok
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};
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static_assert(w == 1, "");
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char arr[f('x')]; // ok
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static_assert(sizeof(arr) == 'x', "");
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}
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namespace ConvertedConst {
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template<typename T> constexpr T f(T n) { return n; }
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int f() {
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switch (f()) {
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case f(4): return 0;
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}
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return 1;
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}
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}
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namespace OverloadResolution {
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template<typename T> constexpr T f(T t) { return t; }
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template<int n> struct S { };
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template<typename T> auto g(T t) -> S<f(sizeof(T))> &;
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char &f(...);
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template<typename T> auto h(T t[f(sizeof(T))]) -> decltype(&*t) {
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return t;
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}
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S<4> &k = g(0);
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int *p, *q = h(p);
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}
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namespace DataMember {
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template<typename T> struct S { static const int k; };
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const int n = S<int>::k; // expected-note {{here}}
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template<typename T> const int S<T>::k = 0;
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constexpr int m = S<int>::k; // ok
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constexpr int o = n; // expected-error {{constant expression}} expected-note {{initializer of 'n'}}
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}
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namespace Reference {
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const int k = 5;
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template<typename T> struct S {
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static volatile int &r;
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};
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template<typename T> volatile int &S<T>::r = const_cast<volatile int&>(k);
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constexpr int n = const_cast<int&>(S<int>::r);
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static_assert(n == 5, "");
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}
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namespace Unevaluated {
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// We follow g++ in treating any reference to a constexpr function template
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// specialization as requiring an instantiation, even if it occurs in an
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// unevaluated context.
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//
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// We go slightly further than g++, and also trigger the implicit definition
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// of a defaulted special member in the same circumstances. This seems scary,
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// since a lot of classes have constexpr special members in C++11, but the
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// only observable impact should be the implicit instantiation of constexpr
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// special member templates (defaulted special members should only be
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// generated if they are well-formed, and non-constexpr special members in a
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// base or member cause the class's special member to not be constexpr).
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//
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// FIXME: None of this is required by the C++ standard. The rules in this
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// area are poorly specified, so this is subject to change.
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namespace NotConstexpr {
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template<typename T> struct S {
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S() : n(0) {}
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S(const S&) : n(T::error) {}
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int n;
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};
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struct U : S<int> {};
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decltype(U(U())) u; // ok, don't instantiate S<int>::S() because it wasn't declared constexpr
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}
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namespace Constexpr {
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template<typename T> struct S {
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constexpr S() : n(0) {}
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constexpr S(const S&) : n(T::error) {} // expected-error {{has no members}}
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int n;
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};
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struct U : S<int> {}; // expected-note {{instantiation}}
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decltype(U(U())) u; // expected-note {{here}}
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}
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namespace PR11851_Comment0 {
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template<int x> constexpr int f() { return x; }
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template<int i> void ovf(int (&x)[f<i>()]);
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void f() { int x[10]; ovf<10>(x); }
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}
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namespace PR11851_Comment1 {
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template<typename T>
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constexpr bool Integral() {
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return true;
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}
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template<typename T, bool Int = Integral<T>()>
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struct safe_make_unsigned {
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typedef T type;
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};
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template<typename T>
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using Make_unsigned = typename safe_make_unsigned<T>::type;
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template <typename T>
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struct get_distance_type {
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using type = int;
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};
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template<typename R>
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auto size(R) -> Make_unsigned<typename get_distance_type<R>::type>;
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auto check() -> decltype(size(0));
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}
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namespace PR11851_Comment6 {
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template<int> struct foo {};
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template<class> constexpr int bar() { return 0; }
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template<class T> foo<bar<T>()> foobar();
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auto foobar_ = foobar<int>();
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}
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namespace PR11851_Comment9 {
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struct S1 {
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constexpr S1() {}
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constexpr operator int() const { return 0; }
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};
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int k1 = sizeof(short{S1(S1())});
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struct S2 {
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constexpr S2() {}
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constexpr operator int() const { return 123456; }
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};
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int k2 = sizeof(short{S2(S2())}); // expected-error {{cannot be narrowed}} expected-note {{insert an explicit cast to silence this issue}}
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}
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namespace PR12288 {
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template <typename> constexpr bool foo() { return true; }
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template <bool> struct bar {};
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template <typename T> bar<foo<T>()> baz() { return bar<foo<T>()>(); }
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int main() { baz<int>(); }
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}
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namespace PR13423 {
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template<bool, typename> struct enable_if {};
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template<typename T> struct enable_if<true, T> { using type = T; };
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template<typename T> struct F {
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template<typename U>
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static constexpr bool f() { return sizeof(T) < U::size; }
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template<typename U>
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static typename enable_if<f<U>(), void>::type g() {} // expected-note {{disabled by 'enable_if'}}
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};
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struct U { static constexpr int size = 2; };
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void h() { F<char>::g<U>(); }
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void i() { F<int>::g<U>(); } // expected-error {{no matching function}}
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}
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namespace PR14203 {
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struct duration { constexpr duration() {} };
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template <typename>
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void sleep_for() {
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constexpr duration max = duration();
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}
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}
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}
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namespace NoInstantiationWhenSelectingOverload {
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// Check that we don't instantiate conversion functions when we're checking
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// for the existence of an implicit conversion sequence, only when a function
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// is actually chosen by overload resolution.
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struct S {
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template<typename T> constexpr S(T) : n(T::error) {} // expected-error {{no members}}
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int n;
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};
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int f(S);
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int f(int);
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void g() { f(0); }
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void h() { (void)sizeof(f(0)); }
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void i() { (void)sizeof(f("oops")); } // expected-note {{instantiation of}}
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}
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