// RUN: %clang_cc1 -fsyntax-only -verify -std=c++11 -fcxx-exceptions %s // RUN: %clang_cc1 -fsyntax-only -std=c++11 -fcxx-exceptions -Wno-invalid-constexpr %s namespace StdExample { constexpr int f(void *) { return 0; } constexpr int f(...) { return 1; } constexpr int g1() { return f(0); } constexpr int g2(int n) { return f(n); } constexpr int g3(int n) { return f(n*0); } namespace N { constexpr int c = 5; constexpr int h() { return c; } } constexpr int c = 0; constexpr int g4() { return N::h(); } static_assert(f(0) == 0, ""); static_assert(f('0') == 1, ""); static_assert(g1() == 0, ""); static_assert(g2(0) == 1, ""); static_assert(g2(1) == 1, ""); static_assert(g3(0) == 1, ""); static_assert(g3(1) == 1, ""); static_assert(N::h() == 5, ""); static_assert(g4() == 5, ""); constexpr int f(bool b) { return b ? throw 0 : 0; } // ok constexpr int f() { return throw 0, 0; } // expected-error {{constexpr function never produces a constant expression}} expected-note {{subexpression}} struct B { constexpr B(int x) : i(0) { } int i; }; int global; // expected-note {{declared here}} struct D : B { constexpr D() : B(global) { } // expected-error {{constexpr constructor never produces a constant expression}} expected-note {{read of non-const}} }; } namespace PotentialConstant { constexpr int Comma(int n) { return // expected-error {{constexpr function never produces a constant expression}} (void)(n * 2), throw 0, // expected-note {{subexpression}} 0; } int ng; // expected-note 6{{here}} constexpr int BinaryOp1(int n) { return n + ng; } // expected-error {{never produces}} expected-note {{read}} constexpr int BinaryOp2(int n) { return ng + n; } // expected-error {{never produces}} expected-note {{read}} double dg; // expected-note 2{{here}} constexpr double BinaryOp1(double d) { return d + dg; } // expected-error {{never produces}} expected-note {{read}} constexpr double BinaryOp2(double d) { return dg + d; } // expected-error {{never produces}} expected-note {{read}} constexpr int Add(int a, int b, int c) { return a + b + c; } constexpr int FunctionArgs(int a) { return Add(a, ng, a); } // expected-error {{never produces}} expected-note {{read}} struct S { int a; int b; int c[2]; }; constexpr S InitList(int a) { return { a, ng }; }; // expected-error {{never produces}} expected-note {{read}} constexpr S InitList1a(int a) { return S{ a, ng }; }; // expected-error {{never produces}} expected-note {{read}} constexpr S InitList2(int a) { return { a, a, { ng } }; }; // expected-error {{never produces}} expected-note {{read}} constexpr S InitList3(int a) { return a ? S{ a, a } : S{ a, ng }; }; // ok constexpr int LogicalAnd1(int n) { return n && (throw, 0); } // ok constexpr int LogicalAnd2(int n) { return 1 && (throw, 0); } // expected-error {{never produces}} expected-note {{subexpression}} constexpr int LogicalOr1(int n) { return n || (throw, 0); } // ok constexpr int LogicalOr2(int n) { return 0 || (throw, 0); } // expected-error {{never produces}} expected-note {{subexpression}} constexpr int Conditional1(bool b, int n) { return b ? n : ng; } // ok constexpr int Conditional2(bool b, int n) { return b ? n * ng : n + ng; } // expected-error {{never produces}} expected-note {{both arms of conditional operator are unable to produce a constant expression}} // __builtin_constant_p ? : is magical, and is always a potential constant. constexpr bool BcpCall(int n) { return __builtin_constant_p((int*)n != &n) ? (int*)n != &n : (int*)n != &n; } static_assert(BcpCall(0), ""); // DR1311: A function template which can produce a constant expression, but // for which a particular specialization cannot, is ok. template constexpr T cmin(T a, T b) { return a < b ? a : b; } int n = cmin(3, 5); // ok struct X { constexpr X() {} bool operator<(X); // not constexpr }; X x = cmin(X(), X()); // ok, not constexpr // Same with other temploids. template struct Y { constexpr Y() {} constexpr int get() { return T(); } }; struct Z { operator int(); }; int y1 = Y().get(); // ok int y2 = Y().get(); // ok }