// RUN: %clang_cc1 -std=c++11 -verify %s // // Note: [class.inhctor] was removed by P0136R1. This tests the new behavior // for the wording that used to be there. template<int> struct X {}; // Constructor characteristics are: // - the template parameter list // - the parameter-type-list // - absence or presence of explicit // - absence or presence of constexpr struct A { A(X<0>) {} // expected-note 4{{here}} constexpr A(X<1>) {} explicit A(X<2>) {} // expected-note 6{{here}} explicit constexpr A(X<3>) {} // expected-note 4{{here}} }; A a0 { X<0>{} }; A a0i = { X<0>{} }; constexpr A a0c { X<0>{} }; // expected-error {{must be initialized by a constant expression}} expected-note {{non-constexpr}} constexpr A a0ic = { X<0>{} }; // expected-error {{must be initialized by a constant expression}} expected-note {{non-constexpr}} A a1 { X<1>{} }; A a1i = { X<1>{} }; constexpr A a1c { X<1>{} }; constexpr A a1ic = { X<1>{} }; A a2 { X<2>{} }; A a2i = { X<2>{} }; // expected-error {{constructor is explicit}} constexpr A a2c { X<2>{} }; // expected-error {{must be initialized by a constant expression}} expected-note {{non-constexpr}} constexpr A a2ic = { X<2>{} }; // expected-error {{constructor is explicit}} A a3 { X<3>{} }; A a3i = { X<3>{} }; // expected-error {{constructor is explicit}} constexpr A a3c { X<3>{} }; constexpr A a3ic = { X<3>{} }; // expected-error {{constructor is explicit}} struct B : A { using A::A; }; B b0 { X<0>{} }; B b0i = { X<0>{} }; constexpr B b0c { X<0>{} }; // expected-error {{must be initialized by a constant expression}} expected-note {{non-constexpr}} constexpr B b0ic = { X<0>{} }; // expected-error {{must be initialized by a constant expression}} expected-note {{non-constexpr}} B b1 { X<1>{} }; B b1i = { X<1>{} }; constexpr B b1c { X<1>{} }; constexpr B b1ic = { X<1>{} }; B b2 { X<2>{} }; B b2i = { X<2>{} }; // expected-error {{constructor is explicit}} constexpr B b2c { X<2>{} }; // expected-error {{must be initialized by a constant expression}} expected-note {{non-constexpr}} constexpr B b2ic = { X<2>{} }; // expected-error {{constructor is explicit}} B b3 { X<3>{} }; B b3i = { X<3>{} }; // expected-error {{constructor is explicit}} constexpr B b3c { X<3>{} }; constexpr B b3ic = { X<3>{} }; // expected-error {{constructor is explicit}} // 'constexpr' is OK even if the constructor doesn't obey the constraints. struct NonLiteral { NonLiteral(); }; struct NonConstexpr { NonConstexpr(); constexpr NonConstexpr(int); }; struct Constexpr { constexpr Constexpr(int) {} }; struct BothNonLiteral : NonLiteral, Constexpr { using Constexpr::Constexpr; }; // expected-note {{base class 'NonLiteral' of non-literal type}} constexpr BothNonLiteral bothNL{42}; // expected-error {{constexpr variable cannot have non-literal type 'const BothNonLiteral'}} // FIXME: This diagnostic is not very good. We should explain that the problem is that base class NonConstexpr cannot be initialized. struct BothNonConstexpr : NonConstexpr, Constexpr { using Constexpr::Constexpr; // expected-note {{here}} }; constexpr BothNonConstexpr bothNC{42}; // expected-error {{must be initialized by a constant expression}} expected-note {{inherited from base class 'Constexpr'}} struct ConstexprEval { constexpr ConstexprEval(int a, const char *p) : k(p[a]) {} char k; }; struct ConstexprEval2 { char k2 = 'x'; }; struct ConstexprEval3 : ConstexprEval, ConstexprEval2 { using ConstexprEval::ConstexprEval; }; constexpr ConstexprEval3 ce{4, "foobar"}; static_assert(ce.k == 'a', ""); static_assert(ce.k2 == 'x', ""); struct TemplateCtors { // expected-note 2{{candidate constructor (the implicit}} constexpr TemplateCtors() {} // expected-note {{candidate inherited constructor}} template<template<int> class T> TemplateCtors(X<0>, T<0>); // expected-note {{here}} expected-note {{candidate inherited constructor}} template<int N> TemplateCtors(X<1>, X<N>); // expected-note {{here}} expected-note {{candidate inherited constructor}} template<typename T> TemplateCtors(X<2>, T); // expected-note {{here}} expected-note {{candidate inherited constructor}} template<typename T = int> TemplateCtors(int, int = 0, int = 0); }; struct UsingTemplateCtors : TemplateCtors { // expected-note 2{{candidate constructor (the implicit}} using TemplateCtors::TemplateCtors; // expected-note 6{{inherited here}} constexpr UsingTemplateCtors(X<0>, X<0>) {} // expected-note {{not viable}} constexpr UsingTemplateCtors(X<1>, X<1>) {} // expected-note {{not viable}} constexpr UsingTemplateCtors(X<2>, X<2>) {} // expected-note {{not viable}} template<int = 0> constexpr UsingTemplateCtors(int) {} // expected-note {{not viable}} template<typename T = void> constexpr UsingTemplateCtors(int, int) {} // expected-note {{not viable}} template<typename T, typename U> constexpr UsingTemplateCtors(int, int, int) {} // expected-note {{couldn't infer}} }; template<int> struct Y {}; constexpr UsingTemplateCtors uct1{ X<0>{}, X<0>{} }; constexpr UsingTemplateCtors uct2{ X<0>{}, Y<0>{} }; // expected-error {{must be initialized by a constant expression}} expected-note {{non-constexpr}} constexpr UsingTemplateCtors uct3{ X<1>{}, X<0>{} }; // expected-error {{must be initialized by a constant expression}} expected-note {{non-constexpr}} constexpr UsingTemplateCtors uct4{ X<1>{}, X<1>{} }; constexpr UsingTemplateCtors uct5{ X<2>{}, 0 }; // expected-error {{must be initialized by a constant expression}} expected-note {{non-constexpr}} constexpr UsingTemplateCtors uct6{ X<2>{}, X<2>{} }; constexpr UsingTemplateCtors utc7{ 0 }; // ok constexpr UsingTemplateCtors utc8{ 0, 0 }; // ok // FIXME: The standard says that UsingTemplateCtors' (int, int, int) constructor // hides the one from TemplateCtors, even though the template parameter lists // don't match. It's not clear that that's *really* the intent, and it's not // what other compilers do. constexpr UsingTemplateCtors utc9{ 0, 0, 0 }; // expected-error {{no matching constructor}}