// RUN: %clang_cc1 %s -std=c++11 -fsyntax-only -verify -triple x86_64-linux-gnu struct S; constexpr int extract(const S &s); struct S { constexpr S() : n(extract(*this)), m(0) {} // expected-note {{in call to 'extract(s1)'}} constexpr S(int k) : n(k), m(extract(*this)) {} int n, m; }; constexpr int extract(const S &s) { return s.n; } // expected-note {{read of uninitialized object is not allowed in a constant expression}} constexpr S s1; // ok void f() { constexpr S s1; // expected-error {{constant expression}} expected-note {{in call to 'S()'}} constexpr S s2(10); } typedef __attribute__((vector_size(16))) int vector_int; struct T { constexpr T() : arr() {} int arr[4]; }; struct U : T { constexpr U(const int *p) : T(), another(), p(p) {} constexpr U(const U &u) : T(), another(), p(u.p) {} T another; const int *p; }; constexpr U u1(&u1.arr[2]); constexpr int test_printing(int a, float b, _Complex int c, _Complex float d, int *e, int &f, vector_int g, U h) { return *e; // expected-note {{read of non-constexpr variable 'u2'}} } U u2(0); // expected-note {{here}} static_assert(test_printing(12, 39.762, 3 + 4i, 12.9 + 3.6i, &u2.arr[4], u2.another.arr[2], (vector_int){5, 1, 2, 3}, u1) == 0, ""); // \ expected-error {{constant expression}} \ expected-note {{in call to 'test_printing(12, 3.976200e+01, 3+4i, 1.290000e+01+3.600000e+00i, &u2.T::arr[4], u2.another.arr[2], {5, 1, 2, 3}, {{{}}, {{}}, &u1.T::arr[2]})'}} struct V { // FIXME: when we can generate these as constexpr constructors, remove the // explicit definitions. constexpr V() : arr{[255] = 42} {} constexpr V(const V &v) : arr{[255] = 42} {} int arr[256]; }; constexpr V v; constexpr int get(const int *p) { return *p; } // expected-note {{read of dereferenced one-past-the-end pointer}} constexpr int passLargeArray(V v) { return get(v.arr+256); } // expected-note {{in call to 'get(&v.arr[256])'}} static_assert(passLargeArray(v) == 0, ""); // expected-error {{constant expression}} expected-note {{in call to 'passLargeArray({{0, 0, 0, 0, 0, 0, 0, 0, 0, 0, ...}})'}} union Union { constexpr Union(int n) : b(n) {} constexpr Union(const Union &u) : b(u.b) {} int a, b; }; constexpr Union myUnion = 76; constexpr int badness(Union u) { return u.a + u.b; } // expected-note {{read of member 'a' of union with active member 'b'}} static_assert(badness(myUnion), ""); // expected-error {{constant expression}} \ expected-note {{in call to 'badness({.b = 76})'}} struct MemPtrTest { int n; void f(); }; MemPtrTest mpt; // expected-note {{here}} constexpr int MemPtr(int (MemPtrTest::*a), void (MemPtrTest::*b)(), int &c) { return c; // expected-note {{read of non-constexpr variable 'mpt'}} } static_assert(MemPtr(&MemPtrTest::n, &MemPtrTest::f, mpt.*&MemPtrTest::n), ""); // expected-error {{constant expression}} \ expected-note {{in call to 'MemPtr(&MemPtrTest::n, &MemPtrTest::f, mpt.n)'}} template<typename CharT> constexpr CharT get(const CharT *p) { return p[-1]; } // expected-note 5{{}} constexpr char c = get("test\0\\\"\t\a\b\234"); // \ expected-error {{}} expected-note {{"test\000\\\"\t\a\b\234"}} constexpr char c8 = get(u8"test\0\\\"\t\a\b\234"); // \ expected-error {{}} expected-note {{u8"test\000\\\"\t\a\b\234"}} constexpr char16_t c16 = get(u"test\0\\\"\t\a\b\234\u1234"); // \ expected-error {{}} expected-note {{u"test\000\\\"\t\a\b\234\u1234"}} constexpr char32_t c32 = get(U"test\0\\\"\t\a\b\234\u1234\U0010ffff"); // \ expected-error {{}} expected-note {{U"test\000\\\"\t\a\b\234\u1234\U0010FFFF"}} constexpr wchar_t wc = get(L"test\0\\\"\t\a\b\234\u1234\xffffffff"); // \ expected-error {{}} expected-note {{L"test\000\\\"\t\a\b\234\x1234\xFFFFFFFF"}} constexpr char32_t c32_err = get(U"\U00110000"); // expected-error {{invalid universal character}} typedef decltype(sizeof(int)) LabelDiffTy; constexpr LabelDiffTy mulBy3(LabelDiffTy x) { return x * 3; } // expected-note {{subexpression}} void LabelDiffTest() { static_assert(mulBy3((LabelDiffTy)&&a-(LabelDiffTy)&&b) == 3, ""); // expected-error {{constant expression}} expected-note {{call to 'mulBy3(&&a - &&b)'}} a:b:return; } constexpr bool test_bool_printing(bool b) { return 1 / !(2*b | !(2*b)); } // expected-note 2{{division by zero}} constexpr bool test_bool_0 = test_bool_printing(false); // expected-error {{constant expr}} expected-note {{in call to 'test_bool_printing(false)'}} constexpr bool test_bool_1 = test_bool_printing(true); // expected-error {{constant expr}} expected-note {{in call to 'test_bool_printing(true)'}}