Mercurial > hg > CbC > CbC_gcc
view gcc/testsuite/g++.dg/cpp0x/constexpr-nullptr-2.C @ 131:84e7813d76e9
gcc-8.2
| author | mir3636 |
|---|---|
| date | Thu, 25 Oct 2018 07:37:49 +0900 |
| parents | 04ced10e8804 |
| children |
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// PR c++/60760 - arithmetic on null pointers should not be allowed // in constant expressions // PR c++/71091 - constexpr reference bound to a null pointer dereference // accepted // { dg-do compile { target c++11 } } // { dg-additional-options "-Wno-pointer-arith" } // Generate a null poiinter. constexpr int* null () { return 0; } // Test case from comment #0 in c++/60760. namespace PR_60760_comment_0 { constexpr int* ptr = nullptr; constexpr int* ptr2 = ptr + 1; // { dg-error "null pointer|not a constant" } } // Test case from comment #1 in c++/60760. namespace PR_60760_comment_1 { constexpr int* ptr = nullptr; constexpr int zero = 0; constexpr int* ptr2 = ptr + zero; // Adding zero is valid. constexpr int* ptr3 = ptr - zero; // As is subtracting zero. } // Test case from c++/71091. namespace PR_71091 { constexpr int *p = 0; constexpr const int &r = *p; // { dg-error "dereferencing a null pointer" } } // Other test cases. namespace C { struct S { int a, b[1]; } s; constexpr S *p0 = &s; constexpr S *p1 = nullptr; constexpr int *r0 = p1->b; // { dg-error "null pointer|constant expression" } // Adding and subtracting zero from and to a null pointer is valid. constexpr S* r1 = p1 + 0; constexpr S* r2 = r1 - 0; constexpr int zero = 0; constexpr S* r3 = r2 + zero; constexpr S* r4 = r3 - zero; static_assert (r4 == nullptr, "r4 == nullptr"); constexpr const S *pcs = p0; constexpr int d1 = pcs - p0; constexpr int d2 = p0 - pcs; constexpr bool b = !p1 && !pcs; } namespace D { struct A { int i; const A *pa1; const A *pa0; }; constexpr A a1 = { 0, 0, 0 }; constexpr A a2 = { 1, &a1, 0 }; constexpr const A *pa2 = &a2; constexpr int i0 = pa2->i; constexpr int i1 = pa2->pa1->i; constexpr int i2 = pa2->pa1->pa0->i; // { dg-error "null pointer|not a constant" } constexpr const A *pa3 = &*pa2->pa1->pa0; constexpr const A *pa4 = pa2->pa1->pa0 + 1; // { dg-error "null pointer|not a constant" } constexpr const int *pi0 = &pa2->pa1->pa0->i; // { dg-error "null pointer|not a constant" } constexpr const A *pa5 = 0; constexpr const int *pi1 = &pa5->i; // { dg-error "null pointer|not a constant" } } namespace SimpleTests { constexpr int* p0 = nullptr; constexpr int* q0 = p0; constexpr int* r0 = null (); // Conversion to cv-qualified void* is valid. constexpr void* pv0 = p0; constexpr const void* pv1 = p0; constexpr volatile void* pv2 = p0; constexpr const volatile void* pv3 = p0; constexpr void* pv4 = static_cast<void*>(p0); constexpr const void* pv5 = static_cast<const void*>(p0); // The following was accepted due to bug c++/49171 constexpr void* pv6 = reinterpret_cast<void*>(p0); // { dg-error "not a constant expression" } // Adding or subtracting zero from a null pointer is valid in C++. constexpr int* p1 = p0 + 0; constexpr int* p2 = p0 - 0; constexpr int* p3 = 0 + p0; // While the text of the C++ standard still doesn't allow it, CWG // issue 232 implies that dererencing a null pointer is intended // to be permitted in contexts where the result isn't evaluated. // For compatibility with C that should at a minimum include // expressions like &*p that are valid there. constexpr int* p4 = &*p0; constexpr int* p5 = p0 + 1; // { dg-error "null pointer|not a constant" } constexpr int* p6 = 1 + p0; // { dg-error "null pointer|not a constant" } constexpr int* p7 = p0 - 1; // { dg-error "null pointer|not a constant" } constexpr int* p8 = &p0 [0]; constexpr int* p9 = &0 [p0]; constexpr int* p10 = null () + 2; // { dg-error "null pointer|not a constant" } constexpr int* p11 = 3 + null (); // { dg-error "null pointer|not a constant" } constexpr int* p12 = null () - 4; // { dg-error "null pointer|not a constant" } constexpr int* p13 = &null ()[4]; // { dg-error "null pointer|not a constant" } constexpr int* p14 = &3[null ()]; // { dg-error "null pointer|not a constant" } constexpr int* q1 = q0 + 0; constexpr int* q2 = q0 - 0; constexpr int* q3 = q0 + 1; // { dg-error "null pointer|not a constant" } constexpr int* q4 = q0 + 2; // { dg-error "null pointer|not a constant" } constexpr int* q5 = &q0 [0]; // Subtracting null pointers from one another is valid. constexpr int i0 = p0 - (int*)0; constexpr int i1 = p0 - static_cast<int*>(0); constexpr int i2 = p0 - (int*)nullptr; constexpr int i3 = p0 - static_cast<int*>(nullptr); constexpr int i4 = p0 - p0; constexpr int i5 = p0 - q0; constexpr int i6 = p0 - r0; constexpr int i7 = (int*)0 - p0; constexpr int i8 = static_cast<int*>(0) - p0; constexpr int i9 = (int*)nullptr - p0; constexpr int i10 = static_cast<int*>(nullptr) - p0; constexpr int i11 = q0 - p0; constexpr int i12 = r0 - p0; } namespace IncompleteTypeTests { // The type must be complete. struct X; constexpr X *px0 = nullptr; constexpr X *px1 = px0 + 0; // { dg-error "invalid use of incomplete type" } constexpr X *px2 = px0 - 0; // { dg-error "invalid use of incomplete type" } constexpr X *px3 = px0 - px0; // { dg-error "invalid use of incomplete type" } constexpr void *pv0 = px0; constexpr void *pv1 = pv0; constexpr const void *pv2 = pv0; constexpr void *pv3 = pv2; // { dg-error "invalid conversion|not a constant expression" } constexpr const void *pv4 = pv2; constexpr X *px4 = pv0; // { dg-error "invalid conversion|not a constant expression" } } namespace IndirectTests { struct S { int i, j; struct SA { struct SB { int *pi; } sb; } sa; }; constexpr S* ps = (S*)0; // Comparing null pointers is valid. constexpr bool b0 = ps == ps; constexpr bool b1 = ps != ps; constexpr bool b2 = ps < ps; constexpr bool b3 = ps <= ps; constexpr bool b4 = ps > ps; constexpr bool b5 = ps >= ps; constexpr bool b6 = ps == (S*)0; constexpr bool b7 = ps != (S*)0; constexpr bool b8 = ps < (S*)0; constexpr bool b9 = ps <= (S*)0; constexpr bool b10 = ps > (S*)0; constexpr bool b11 = ps >= (S*)0; constexpr S* ps1 = ps; constexpr S* ps2 = ps1; constexpr int* pi0 = &((S*)0)->i; // { dg-error "null pointer|not a constant" } constexpr int* pi1 = &((S*)nullptr)->i; // { dg-error "null pointer|not a constant" } constexpr int* pj0 = &((S*)0)->j; // { dg-error "null pointer|not a constant" } constexpr int* pj1 = &((S*)nullptr)->j; // { dg-error "null pointer|not a constant" } constexpr int* psi = &ps->i; // { dg-error "null pointer|not a constant" } constexpr int* psj = &ps->j; // { dg-error "null pointer|not a constant" } constexpr int* ps1i = &ps1->i; // { dg-error "null pointer|not a constant" } constexpr int* ps2i = &ps1->i; // { dg-error "null pointer|not a constant" } constexpr int* ps1j = &ps1->j; // { dg-error "null pointer|not a constant" } constexpr int* ps2j = &ps1->j; // { dg-error "null pointer|not a constant" } } namespace BaseAndDerivedTests { struct A { }; struct B: A { }; struct C: B { }; struct D: B, C { }; // { dg-warning "inaccessible" } constexpr D *pd0 = 0; constexpr C *pc0 = 0; constexpr B *pb0 = 0; constexpr A *pa0 = pb0; constexpr A *pa1 = static_cast<A*>(pb0); constexpr A *pa2 = pc0; constexpr A *pa3 = pd0; // { dg-error "ambiguous base" } constexpr A *pa4 = static_cast<A*>(pd0); // { dg-error "ambiguous base" } constexpr B *pb1 = pa0; // { dg-error "invalid conversion|not a constant expression" } constexpr B *pb2 = static_cast<B*>(pa0); // { dg-error "not a constant expression" } constexpr C *pc1 = pa0; // { dg-error "invalid conversion|not a constant expression" } constexpr D *pd1 = pa0; // { dg-error "ambiguous base|invalid conversion" } struct E: private A { }; constexpr E *pe0 = 0; constexpr A *pa5 = pe0; // { dg-error "inaccessible base of" } struct VA { virtual ~VA (); }; struct VB: virtual VA { }; struct VC: virtual VA { }; struct VD: VB, VC { }; constexpr VD *pvd0 = 0; constexpr VC *pvc0 = 0; constexpr VB *pvb0 = 0; constexpr VA *pva0 = pvb0; constexpr VA *pva1 = pvc0; constexpr VA *pva2 = pvd0; constexpr VB *pvb1 = pva0; // { dg-error "invalid conversion|cannot convert from pointer to base class" } } namespace FunctionTests { typedef void Func (); // Arithmetic on member function pointers is diagnosed with -Wpointer-arith. // With constexpr, only zero may be added or subtracted. constexpr Func *pf0 = 0; constexpr Func *pf1 = pf0 + 0; // triggers -Wpointer-arith constexpr Func *pf2 = pf0 - 0; // triggers -Wpointer-arith constexpr Func *pf3 = 0 + pf0; // triggers -Wpointer-arith constexpr Func *pf4 = pf0 + 1; // { dg-error "null pointer|not a constant" } constexpr Func *pf5 = 2 + pf0; // { dg-error "null pointer|not a constant" } constexpr Func *pf6 = pf0 - 3; // { dg-error "null pointer|not a constant" } struct S; typedef void (S::*MemFuncPtr)(); // Arithmetic on member function pointers is rejected with a hard error. constexpr MemFuncPtr pmf0 = nullptr; constexpr MemFuncPtr pmf1 = pmf0 + 0; // { dg-error "invalid operands" } constexpr MemFuncPtr pmf2 = 0 + pmf0; // { dg-error "invalid operands" } constexpr MemFuncPtr pmf3 = pmf0 + 1; // { dg-error "invalid operands" } constexpr MemFuncPtr pmf4 = 1 + pmf0; // { dg-error "invalid operands" } constexpr MemFuncPtr pmf5 = pmf0 - 1; // { dg-error "invalid operands" } } namespace ConversionTest { struct A { int *p; }; constexpr const int* f (const int *p) { return p; } void f () { static_assert (!f (0), "f (a.p)"); static_assert (!f (nullptr), "f (a.p)"); constexpr A a = A (); static_assert (!f (a.p), "f (a.p)"); } }