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// RUN: %clang_cc1 -triple i686-linux -Wno-string-plus-int -Wno-pointer-arith -Wno-zero-length-array -fsyntax-only -fcxx-exceptions -verify -std=c++11 -pedantic %s -Wno-comment
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namespace StaticAssertFoldTest {
int x ;
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static_assert ( + + x , " test " ) ; // expected-error {{not an integral constant expression}}
static_assert ( false , " test " ) ; // expected-error {{test}}
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}
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typedef decltype ( sizeof ( char ) ) size_t ;
template < typename T > constexpr T id ( const T & t ) { return t ; }
template < typename T > constexpr T min ( const T & a , const T & b ) {
return a < b ? a : b ;
}
template < typename T > constexpr T max ( const T & a , const T & b ) {
return a < b ? b : a ;
}
template < typename T , size_t N > constexpr T * begin ( T ( & xs ) [ N ] ) { return xs ; }
template < typename T , size_t N > constexpr T * end ( T ( & xs ) [ N ] ) { return xs + N ; }
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struct MemberZero {
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constexpr int zero ( ) const { return 0 ; }
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} ;
namespace DerivedToVBaseCast {
struct U { int n ; } ;
struct V : U { int n ; } ;
struct A : virtual V { int n ; } ;
struct Aa { int n ; } ;
struct B : virtual A , Aa { } ;
struct C : virtual A , Aa { } ;
struct D : B , C { } ;
D d ;
constexpr B * p = & d ;
constexpr C * q = & d ;
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static_assert ( ( void * ) p ! = ( void * ) q , " " ) ;
static_assert ( ( A * ) p = = ( A * ) q , " " ) ;
static_assert ( ( Aa * ) p ! = ( Aa * ) q , " " ) ;
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constexpr B & pp = d ;
constexpr C & qq = d ;
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static_assert ( ( void * ) & pp ! = ( void * ) & qq , " " ) ;
static_assert ( & ( A & ) pp = = & ( A & ) qq , " " ) ;
static_assert ( & ( Aa & ) pp ! = & ( Aa & ) qq , " " ) ;
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constexpr V * v = p ;
constexpr V * w = q ;
constexpr V * x = ( A * ) p ;
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static_assert ( v = = w , " " ) ;
static_assert ( v = = x , " " ) ;
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static_assert ( ( U * ) & d = = p , " " ) ;
static_assert ( ( U * ) & d = = q , " " ) ;
static_assert ( ( U * ) & d = = v , " " ) ;
static_assert ( ( U * ) & d = = w , " " ) ;
static_assert ( ( U * ) & d = = x , " " ) ;
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struct X { } ;
struct Y1 : virtual X { } ;
struct Y2 : X { } ;
struct Z : Y1 , Y2 { } ;
Z z ;
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static_assert ( ( X * ) ( Y1 * ) & z ! = ( X * ) ( Y2 * ) & z , " " ) ;
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}
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namespace ConstCast {
constexpr int n1 = 0 ;
constexpr int n2 = const_cast < int & > ( n1 ) ;
constexpr int * n3 = const_cast < int * > ( & n1 ) ;
constexpr int n4 = * const_cast < int * > ( & n1 ) ;
constexpr const int * const * n5 = const_cast < const int * const * > ( & n3 ) ;
constexpr int * * n6 = const_cast < int * * > ( & n3 ) ;
constexpr int n7 = * * n5 ;
constexpr int n8 = * * n6 ;
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// const_cast from prvalue to xvalue.
struct A { int n ; } ;
constexpr int n9 = ( const_cast < A & & > ( A { 123 } ) ) . n ;
static_assert ( n9 = = 123 , " " ) ;
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}
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namespace TemplateArgumentConversion {
template < int n > struct IntParam { } ;
using IntParam0 = IntParam < 0 > ;
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using IntParam0 = IntParam < id ( 0 ) > ;
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using IntParam0 = IntParam < MemberZero ( ) . zero > ; // expected-error {{did you mean to call it with no arguments?}}
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}
namespace CaseStatements {
void f ( int n ) {
switch ( n ) {
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case MemberZero ( ) . zero : / / expected - error { { did you mean to call it with no arguments ? } } expected - note { { previous } }
case id ( 0 ) : / / expected - error { { duplicate case value ' 0 ' } }
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return ;
}
}
}
extern int & Recurse1 ;
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int & Recurse2 = Recurse1 ; // expected-note {{declared here}}
int & Recurse1 = Recurse2 ;
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constexpr int & Recurse3 = Recurse2 ; // expected-error {{must be initialized by a constant expression}} expected-note {{initializer of 'Recurse2' is not a constant expression}}
extern const int RecurseA ;
const int RecurseB = RecurseA ; // expected-note {{declared here}}
const int RecurseA = 10 ;
constexpr int RecurseC = RecurseB ; // expected-error {{must be initialized by a constant expression}} expected-note {{initializer of 'RecurseB' is not a constant expression}}
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namespace MemberEnum {
struct WithMemberEnum {
enum E { A = 42 } ;
} wme ;
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static_assert ( wme . A = = 42 , " " ) ;
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}
namespace DefaultArguments {
const int z = int ( ) ;
constexpr int Sum ( int a = 0 , const int & b = 0 , const int * c = & z , char d = 0 ) {
return a + b + * c + d ;
}
const int four = 4 ;
constexpr int eight = 8 ;
constexpr const int twentyseven = 27 ;
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static_assert ( Sum ( ) = = 0 , " " ) ;
static_assert ( Sum ( 1 ) = = 1 , " " ) ;
static_assert ( Sum ( 1 , four ) = = 5 , " " ) ;
static_assert ( Sum ( 1 , eight , & twentyseven ) = = 36 , " " ) ;
static_assert ( Sum ( 1 , 2 , & four , eight ) = = 15 , " " ) ;
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}
namespace Ellipsis {
// Note, values passed through an ellipsis can't actually be used.
constexpr int F ( int a , . . . ) { return a ; }
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static_assert ( F ( 0 ) = = 0 , " " ) ;
static_assert ( F ( 1 , 0 ) = = 1 , " " ) ;
static_assert ( F ( 2 , " test " ) = = 2 , " " ) ;
static_assert ( F ( 3 , & F ) = = 3 , " " ) ;
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int k = 0 ; // expected-note {{here}}
static_assert ( F ( 4 , k ) = = 3 , " " ) ; // expected-error {{constant expression}} expected-note {{read of non-const variable 'k'}}
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}
namespace Recursion {
constexpr int fib ( int n ) { return n > 1 ? fib ( n - 1 ) + fib ( n - 2 ) : n ; }
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static_assert ( fib ( 11 ) = = 89 , " " ) ;
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constexpr int gcd_inner ( int a , int b ) {
return b = = 0 ? a : gcd_inner ( b , a % b ) ;
}
constexpr int gcd ( int a , int b ) {
return gcd_inner ( max ( a , b ) , min ( a , b ) ) ;
}
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static_assert ( gcd ( 1749237 , 5628959 ) = = 7 , " " ) ;
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}
namespace FunctionCast {
// When folding, we allow functions to be cast to different types. Such
// cast functions cannot be called, even if they're constexpr.
constexpr int f ( ) { return 1 ; }
typedef double ( * DoubleFn ) ( ) ;
typedef int ( * IntFn ) ( ) ;
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int a [ ( int ) DoubleFn ( f ) ( ) ] ; // expected-error {{variable length array}} expected-warning{{C99 feature}}
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int b [ ( int ) IntFn ( f ) ( ) ] ; // ok
}
namespace StaticMemberFunction {
struct S {
static constexpr int k = 42 ;
static constexpr int f ( int n ) { return n * k + 2 ; }
} s ;
constexpr int n = s . f ( 19 ) ;
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static_assert ( S : : f ( 19 ) = = 800 , " " ) ;
static_assert ( s . f ( 19 ) = = 800 , " " ) ;
static_assert ( n = = 800 , " " ) ;
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constexpr int ( * sf1 ) ( int ) = & S : : f ;
constexpr int ( * sf2 ) ( int ) = & s . f ;
constexpr const int * sk = & s . k ;
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}
namespace ParameterScopes {
const int k = 42 ;
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constexpr const int & ObscureTheTruth ( const int & a ) { return a ; }
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constexpr const int & MaybeReturnJunk ( bool b , const int a ) { // expected-note 2{{declared here}}
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return ObscureTheTruth ( b ? a : k ) ;
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}
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static_assert ( MaybeReturnJunk ( false , 0 ) = = 42 , " " ) ; // ok
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constexpr int a = MaybeReturnJunk ( true , 0 ) ; // expected-error {{constant expression}} expected-note {{read of variable whose lifetime has ended}}
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constexpr const int MaybeReturnNonstaticRef ( bool b , const int a ) {
return ObscureTheTruth ( b ? a : k ) ;
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}
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static_assert ( MaybeReturnNonstaticRef ( false , 0 ) = = 42 , " " ) ; // ok
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constexpr int b = MaybeReturnNonstaticRef ( true , 0 ) ; // ok
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constexpr int InternalReturnJunk ( int n ) {
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return MaybeReturnJunk ( true , n ) ; // expected-note {{read of variable whose lifetime has ended}}
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}
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constexpr int n3 = InternalReturnJunk ( 0 ) ; // expected-error {{must be initialized by a constant expression}} expected-note {{in call to 'InternalReturnJunk(0)'}}
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constexpr int LToR ( int & n ) { return n ; }
constexpr int GrabCallersArgument ( bool which , int a , int b ) {
return LToR ( which ? b : a ) ;
}
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static_assert ( GrabCallersArgument ( false , 1 , 2 ) = = 1 , " " ) ;
static_assert ( GrabCallersArgument ( true , 4 , 8 ) = = 8 , " " ) ;
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}
namespace Pointers {
constexpr int f ( int n , const int * a , const int * b , const int * c ) {
return n = = 0 ? 0 : * a + f ( n - 1 , b , c , a ) ;
}
const int x = 1 , y = 10 , z = 100 ;
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static_assert ( f ( 23 , & x , & y , & z ) = = 788 , " " ) ;
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constexpr int g ( int n , int a , int b , int c ) {
return f ( n , & a , & b , & c ) ;
}
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static_assert ( g ( 23 , x , y , z ) = = 788 , " " ) ;
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}
namespace FunctionPointers {
constexpr int Double ( int n ) { return 2 * n ; }
constexpr int Triple ( int n ) { return 3 * n ; }
constexpr int Twice ( int ( * F ) ( int ) , int n ) { return F ( F ( n ) ) ; }
constexpr int Quadruple ( int n ) { return Twice ( Double , n ) ; }
constexpr auto Select ( int n ) - > int ( * ) ( int ) {
return n = = 2 ? & Double : n = = 3 ? & Triple : n = = 4 ? & Quadruple : 0 ;
}
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constexpr int Apply ( int ( * F ) ( int ) , int n ) { return F ( n ) ; } // expected-note {{subexpression}}
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static_assert ( 1 + Apply ( Select ( 4 ) , 5 ) + Apply ( Select ( 3 ) , 7 ) = = 42 , " " ) ;
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constexpr int Invalid = Apply ( Select ( 0 ) , 0 ) ; // expected-error {{must be initialized by a constant expression}} expected-note {{in call to 'Apply(0, 0)'}}
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}
namespace PointerComparison {
int x , y ;
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static_assert ( & x = = & y , " false " ) ; // expected-error {{false}}
static_assert ( & x ! = & y , " " ) ;
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constexpr bool g1 = & x = = & y ;
constexpr bool g2 = & x ! = & y ;
constexpr bool g3 = & x < = & y ; // expected-error {{must be initialized by a constant expression}}
constexpr bool g4 = & x > = & y ; // expected-error {{must be initialized by a constant expression}}
constexpr bool g5 = & x < & y ; // expected-error {{must be initialized by a constant expression}}
constexpr bool g6 = & x > & y ; // expected-error {{must be initialized by a constant expression}}
struct S { int x , y ; } s ;
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static_assert ( & s . x = = & s . y , " false " ) ; // expected-error {{false}}
static_assert ( & s . x ! = & s . y , " " ) ;
static_assert ( & s . x < = & s . y , " " ) ;
static_assert ( & s . x > = & s . y , " false " ) ; // expected-error {{false}}
static_assert ( & s . x < & s . y , " " ) ;
static_assert ( & s . x > & s . y , " false " ) ; // expected-error {{false}}
static_assert ( 0 = = & y , " false " ) ; // expected-error {{false}}
static_assert ( 0 ! = & y , " " ) ;
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constexpr bool n3 = 0 < = & y ; // expected-error {{must be initialized by a constant expression}}
constexpr bool n4 = 0 > = & y ; // expected-error {{must be initialized by a constant expression}}
constexpr bool n5 = 0 < & y ; // expected-error {{must be initialized by a constant expression}}
constexpr bool n6 = 0 > & y ; // expected-error {{must be initialized by a constant expression}}
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static_assert ( & x = = 0 , " false " ) ; // expected-error {{false}}
static_assert ( & x ! = 0 , " " ) ;
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constexpr bool n9 = & x < = 0 ; // expected-error {{must be initialized by a constant expression}}
constexpr bool n10 = & x > = 0 ; // expected-error {{must be initialized by a constant expression}}
constexpr bool n11 = & x < 0 ; // expected-error {{must be initialized by a constant expression}}
constexpr bool n12 = & x > 0 ; // expected-error {{must be initialized by a constant expression}}
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static_assert ( & x = = & x , " " ) ;
static_assert ( & x ! = & x , " false " ) ; // expected-error {{false}}
static_assert ( & x < = & x , " " ) ;
static_assert ( & x > = & x , " " ) ;
static_assert ( & x < & x , " false " ) ; // expected-error {{false}}
static_assert ( & x > & x , " false " ) ; // expected-error {{false}}
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constexpr S * sptr = & s ;
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constexpr bool dyncast = sptr = = dynamic_cast < S * > ( sptr ) ; // expected-error {{constant expression}} expected-note {{dynamic_cast}}
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struct U { } ;
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struct Str {
int a : dynamic_cast < S * > ( sptr ) = = dynamic_cast < S * > ( sptr ) ; / / \
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expected - warning { { not an integral constant expression } } \
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expected - note { { dynamic_cast is not allowed in a constant expression } }
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int b : reinterpret_cast < S * > ( sptr ) = = reinterpret_cast < S * > ( sptr ) ; / / \
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expected - warning { { not an integral constant expression } } \
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expected - note { { reinterpret_cast is not allowed in a constant expression } }
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int c : ( S * ) ( long ) ( sptr ) = = ( S * ) ( long ) ( sptr ) ; / / \
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expected - warning { { not an integral constant expression } } \
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expected - note { { cast that performs the conversions of a reinterpret_cast is not allowed in a constant expression } }
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int d : ( S * ) ( 42 ) = = ( S * ) ( 42 ) ; / / \
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expected - warning { { not an integral constant expression } } \
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expected - note { { cast that performs the conversions of a reinterpret_cast is not allowed in a constant expression } }
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int e : ( Str * ) ( sptr ) = = ( Str * ) ( sptr ) ; / / \
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expected - warning { { not an integral constant expression } } \
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expected - note { { cast that performs the conversions of a reinterpret_cast is not allowed in a constant expression } }
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int f : & ( U & ) ( * sptr ) = = & ( U & ) ( * sptr ) ; / / \
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expected - warning { { not an integral constant expression } } \
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expected - note { { cast that performs the conversions of a reinterpret_cast is not allowed in a constant expression } }
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int g : ( S * ) ( void * ) ( sptr ) = = sptr ; / / \
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expected - warning { { not an integral constant expression } } \
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expected - note { { cast from ' void * ' is not allowed in a constant expression } }
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} ;
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extern char externalvar [ ] ;
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constexpr bool constaddress = ( void * ) externalvar = = ( void * ) 0x4000UL ; // expected-error {{must be initialized by a constant expression}}
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constexpr bool litaddress = " foo " = = " foo " ; // expected-error {{must be initialized by a constant expression}} expected-warning {{unspecified}}
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static_assert ( 0 ! = " foo " , " " ) ;
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}
namespace MaterializeTemporary {
constexpr int f ( const int & r ) { return r ; }
constexpr int n = f ( 1 ) ;
constexpr bool same ( const int & a , const int & b ) { return & a = = & b ; }
constexpr bool sameTemporary ( const int & n ) { return same ( n , n ) ; }
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static_assert ( n , " " ) ;
static_assert ( ! same ( 4 , 4 ) , " " ) ;
static_assert ( same ( n , n ) , " " ) ;
static_assert ( sameTemporary ( 9 ) , " " ) ;
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struct A { int & & r ; } ;
struct B { A & & a1 ; A & & a2 ; } ;
constexpr B b1 { { 1 } , { 2 } } ; // expected-note {{temporary created here}}
static_assert ( & b1 . a1 ! = & b1 . a2 , " " ) ;
static_assert ( & b1 . a1 . r ! = & b1 . a2 . r , " " ) ; // expected-error {{constant expression}} expected-note {{outside the expression that created the temporary}}
constexpr B & & b2 { { 3 } , { 4 } } ; // expected-note {{temporary created here}}
static_assert ( & b1 ! = & b2 , " " ) ;
static_assert ( & b1 . a1 ! = & b2 . a1 , " " ) ; // expected-error {{constant expression}} expected-note {{outside the expression that created the temporary}}
constexpr thread_local B b3 { { 1 } , { 2 } } ; // expected-error {{constant expression}} expected-note {{reference to temporary}} expected-note {{here}}
void foo ( ) {
constexpr static B b1 { { 1 } , { 2 } } ; // ok
constexpr thread_local B b2 { { 1 } , { 2 } } ; // expected-error {{constant expression}} expected-note {{reference to temporary}} expected-note {{here}}
constexpr B b3 { { 1 } , { 2 } } ; // expected-error {{constant expression}} expected-note {{reference to temporary}} expected-note {{here}}
}
constexpr B & & b4 = ( ( 1 , 2 ) , 3 , 4 , B { { 10 } , { { 20 } } } ) ; // expected-warning 4{{unused}}
static_assert ( & b4 ! = & b2 , " " ) ;
// Proposed DR: copy-elision doesn't trigger lifetime extension.
constexpr B b5 = B { { 0 } , { 0 } } ; // expected-error {{constant expression}} expected-note {{reference to temporary}} expected-note {{here}}
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namespace NestedNonStatic {
// Proposed DR: for a reference constant expression to refer to a static
// storage duration temporary, that temporary must itself be initialized
// by a constant expression (a core constant expression is not enough).
struct A { int & & r ; } ;
struct B { A & & a ; } ;
constexpr B a = { A { 0 } } ; // ok
constexpr B b = { A ( A { 0 } ) } ; // expected-error {{constant expression}} expected-note {{reference to temporary}} expected-note {{here}}
}
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namespace FakeInitList {
struct init_list_3_ints { const int ( & x ) [ 3 ] ; } ;
struct init_list_2_init_list_3_ints { const init_list_3_ints ( & x ) [ 2 ] ; } ;
constexpr init_list_2_init_list_3_ints ils = { { { { 1 , 2 , 3 } } , { { 4 , 5 , 6 } } } } ;
}
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}
constexpr int strcmp_ce ( const char * p , const char * q ) {
return ( ! * p | | * p ! = * q ) ? * p - * q : strcmp_ce ( p + 1 , q + 1 ) ;
}
namespace StringLiteral {
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template < typename Char >
constexpr int MangleChars ( const Char * p ) {
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return * p + 3 * ( * p ? MangleChars ( p + 1 ) : 0 ) ;
}
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static_assert ( MangleChars ( " constexpr! " ) = = 1768383 , " " ) ;
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static_assert ( MangleChars ( u8 " constexpr! " ) = = 1768383 , " " ) ;
static_assert ( MangleChars ( L " constexpr! " ) = = 1768383 , " " ) ;
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static_assert ( MangleChars ( u " constexpr! " ) = = 1768383 , " " ) ;
static_assert ( MangleChars ( U " constexpr! " ) = = 1768383 , " " ) ;
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constexpr char c0 = " nought index " [ 0 ] ;
constexpr char c1 = " nice index " [ 10 ] ;
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constexpr char c2 = " nasty index " [ 12 ] ; // expected-error {{must be initialized by a constant expression}} expected-warning {{is past the end}} expected-note {{read of dereferenced one-past-the-end pointer}}
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constexpr char c3 = " negative index " [ - 1 ] ; // expected-error {{must be initialized by a constant expression}} expected-warning {{is before the beginning}} expected-note {{cannot refer to element -1 of array of 15 elements}}
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constexpr char c4 = ( ( char * ) ( int * ) " no reinterpret_casts allowed " ) [ 14 ] ; // expected-error {{must be initialized by a constant expression}} expected-note {{cast that performs the conversions of a reinterpret_cast}}
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constexpr const char * p = " test " + 2 ;
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static_assert ( * p = = ' s ' , " " ) ;
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constexpr const char * max_iter ( const char * a , const char * b ) {
return * a < * b ? b : a ;
}
constexpr const char * max_element ( const char * a , const char * b ) {
return ( a + 1 > = b ) ? a : max_iter ( a , max_element ( a + 1 , b ) ) ;
}
constexpr char str [ ] = " the quick brown fox jumped over the lazy dog " ;
constexpr const char * max = max_element ( begin ( str ) , end ( str ) ) ;
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static_assert ( * max = = ' z ' , " " ) ;
static_assert ( max = = str + 38 , " " ) ;
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static_assert ( strcmp_ce ( " hello world " , " hello world " ) = = 0 , " " ) ;
static_assert ( strcmp_ce ( " hello world " , " hello clang " ) > 0 , " " ) ;
static_assert ( strcmp_ce ( " constexpr " , " test " ) < 0 , " " ) ;
static_assert ( strcmp_ce ( " " , " " ) < 0 , " " ) ;
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struct S {
int n : " foo " [ 4 ] ; // expected-error {{constant expression}} expected-note {{read of dereferenced one-past-the-end pointer is not allowed in a constant expression}}
} ;
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struct T {
char c [ 6 ] ;
constexpr T ( ) : c { " foo " } { }
} ;
constexpr T t ;
static_assert ( t . c [ 0 ] = = ' f ' , " " ) ;
static_assert ( t . c [ 1 ] = = ' o ' , " " ) ;
static_assert ( t . c [ 2 ] = = ' o ' , " " ) ;
static_assert ( t . c [ 3 ] = = 0 , " " ) ;
static_assert ( t . c [ 4 ] = = 0 , " " ) ;
static_assert ( t . c [ 5 ] = = 0 , " " ) ;
static_assert ( t . c [ 6 ] = = 0 , " " ) ; // expected-error {{constant expression}} expected-note {{one-past-the-end}}
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struct U {
wchar_t chars [ 6 ] ;
int n ;
} constexpr u = { { L " test " } , 0 } ;
static_assert ( u . chars [ 2 ] = = L ' s ' , " " ) ;
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struct V {
char c [ 4 ] ;
constexpr V ( ) : c ( " hi! " ) { }
} ;
static_assert ( V ( ) . c [ 1 ] = = " i " [ 0 ] , " " ) ;
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namespace Parens {
constexpr unsigned char a [ ] = ( " foo " ) , b [ ] = { " foo " } , c [ ] = { ( " foo " ) } ,
d [ 4 ] = ( " foo " ) , e [ 5 ] = { " foo " } , f [ 6 ] = { ( " foo " ) } ;
static_assert ( a [ 0 ] = = ' f ' , " " ) ;
static_assert ( b [ 1 ] = = ' o ' , " " ) ;
static_assert ( c [ 2 ] = = ' o ' , " " ) ;
static_assert ( d [ 0 ] = = ' f ' , " " ) ;
static_assert ( e [ 1 ] = = ' o ' , " " ) ;
static_assert ( f [ 2 ] = = ' o ' , " " ) ;
static_assert ( f [ 5 ] = = 0 , " " ) ;
static_assert ( f [ 6 ] = = 0 , " " ) ; // expected-error {{constant expression}} expected-note {{one-past-the-end}}
}
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}
namespace Array {
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template < typename Iter >
constexpr auto Sum ( Iter begin , Iter end ) - > decltype ( + * begin ) {
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return begin = = end ? 0 : * begin + Sum ( begin + 1 , end ) ;
}
constexpr int xs [ ] = { 1 , 2 , 3 , 4 , 5 } ;
constexpr int ys [ ] = { 5 , 4 , 3 , 2 , 1 } ;
constexpr int sum_xs = Sum ( begin ( xs ) , end ( xs ) ) ;
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static_assert ( sum_xs = = 15 , " " ) ;
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constexpr int ZipFoldR ( int ( * F ) ( int x , int y , int c ) , int n ,
const int * xs , const int * ys , int c ) {
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return n ? F (
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* xs , // expected-note {{read of dereferenced one-past-the-end pointer}}
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* ys ,
ZipFoldR ( F , n - 1 , xs + 1 , ys + 1 , c ) ) / / \
expected - note { { in call to ' ZipFoldR ( & SubMul , 2 , & xs [ 4 ] , & ys [ 4 ] , 1 ) ' } } \
expected - note { { in call to ' ZipFoldR ( & SubMul , 1 , & xs [ 5 ] , & ys [ 5 ] , 1 ) ' } }
: c ;
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}
constexpr int MulAdd ( int x , int y , int c ) { return x * y + c ; }
constexpr int InnerProduct = ZipFoldR ( MulAdd , 5 , xs , ys , 0 ) ;
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static_assert ( InnerProduct = = 35 , " " ) ;
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constexpr int SubMul ( int x , int y , int c ) { return ( x - y ) * c ; }
constexpr int DiffProd = ZipFoldR ( SubMul , 2 , xs + 3 , ys + 3 , 1 ) ;
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static_assert ( DiffProd = = 8 , " " ) ;
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static_assert ( ZipFoldR ( SubMul , 3 , xs + 3 , ys + 3 , 1 ) , " " ) ; / / \
expected - error { { constant expression } } \
expected - note { { in call to ' ZipFoldR ( & SubMul , 3 , & xs [ 3 ] , & ys [ 3 ] , 1 ) ' } }
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constexpr const int * p = xs + 3 ;
constexpr int xs4 = p [ 1 ] ; // ok
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constexpr int xs5 = p [ 2 ] ; // expected-error {{constant expression}} expected-note {{read of dereferenced one-past-the-end pointer}}
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constexpr int xs6 = p [ 3 ] ; // expected-error {{constant expression}} expected-note {{cannot refer to element 6}}
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constexpr int xs0 = p [ - 3 ] ; // ok
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constexpr int xs_1 = p [ - 4 ] ; // expected-error {{constant expression}} expected-note {{cannot refer to element -1}}
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constexpr int zs [ 2 ] [ 2 ] [ 2 ] [ 2 ] = { 1 , 2 , 3 , 4 , 5 , 6 , 7 , 8 , 9 , 10 , 11 , 12 , 13 , 14 , 15 , 16 } ;
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static_assert ( zs [ 0 ] [ 0 ] [ 0 ] [ 0 ] = = 1 , " " ) ;
static_assert ( zs [ 1 ] [ 1 ] [ 1 ] [ 1 ] = = 16 , " " ) ;
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static_assert ( zs [ 0 ] [ 0 ] [ 0 ] [ 2 ] = = 3 , " " ) ; // expected-error {{constant expression}} expected-note {{read of dereferenced one-past-the-end pointer}}
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static_assert ( ( & zs [ 0 ] [ 0 ] [ 0 ] [ 2 ] ) [ - 1 ] = = 2 , " " ) ;
static_assert ( * * ( * * ( zs + 1 ) + 1 ) = = 11 , " " ) ;
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static_assert ( * ( & ( & ( * ( * & ( & zs [ 2 ] - 1 ) [ 0 ] + 2 - 2 ) ) [ 2 ] ) [ - 1 ] [ - 1 ] + 1 ) = = 11 , " " ) ; // expected-error {{constant expression}} expected-note {{cannot refer to element -1 of array of 2 elements in a constant expression}}
static_assert ( * ( & ( & ( * ( * & ( & zs [ 2 ] - 1 ) [ 0 ] + 2 - 2 ) ) [ 2 ] ) [ - 1 ] [ 2 ] - 2 ) = = 11 , " " ) ;
constexpr int err_zs_1_2_0_0 = zs [ 1 ] [ 2 ] [ 0 ] [ 0 ] ; // expected-error {{constant expression}} expected-note {{cannot access array element of pointer past the end}}
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constexpr int fail ( const int & p ) {
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return ( & p ) [ 64 ] ; // expected-note {{cannot refer to element 64 of array of 2 elements}}
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}
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static_assert ( fail ( * ( & ( & ( * ( * & ( & zs [ 2 ] - 1 ) [ 0 ] + 2 - 2 ) ) [ 2 ] ) [ - 1 ] [ 2 ] - 2 ) ) = = 11 , " " ) ; / / \
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expected - error { { static_assert expression is not an integral constant expression } } \
expected - note { { in call to ' fail ( zs [ 1 ] [ 0 ] [ 1 ] [ 0 ] ) ' } }
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constexpr int arr [ 40 ] = { 1 , 2 , 3 , [ 8 ] = 4 } ; // expected-warning {{C99 feature}}
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constexpr int SumNonzero ( const int * p ) {
return * p + ( * p ? SumNonzero ( p + 1 ) : 0 ) ;
}
constexpr int CountZero ( const int * p , const int * q ) {
return p = = q ? 0 : ( * p = = 0 ) + CountZero ( p + 1 , q ) ;
}
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static_assert ( SumNonzero ( arr ) = = 6 , " " ) ;
static_assert ( CountZero ( arr , arr + 40 ) = = 36 , " " ) ;
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struct ArrayElem {
constexpr ArrayElem ( ) : n ( 0 ) { }
int n ;
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constexpr int f ( ) const { return n ; }
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} ;
struct ArrayRVal {
constexpr ArrayRVal ( ) { }
ArrayElem elems [ 10 ] ;
} ;
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static_assert ( ArrayRVal ( ) . elems [ 3 ] . f ( ) = = 0 , " " ) ;
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constexpr int selfref [ 2 ] [ 2 ] [ 2 ] = {
selfref [ 1 ] [ 1 ] [ 1 ] + 1 , selfref [ 0 ] [ 0 ] [ 0 ] + 1 ,
selfref [ 1 ] [ 0 ] [ 1 ] + 1 , selfref [ 0 ] [ 1 ] [ 0 ] + 1 ,
selfref [ 1 ] [ 0 ] [ 0 ] + 1 , selfref [ 0 ] [ 1 ] [ 1 ] + 1 } ;
static_assert ( selfref [ 0 ] [ 0 ] [ 0 ] = = 1 , " " ) ;
static_assert ( selfref [ 0 ] [ 0 ] [ 1 ] = = 2 , " " ) ;
static_assert ( selfref [ 0 ] [ 1 ] [ 0 ] = = 1 , " " ) ;
static_assert ( selfref [ 0 ] [ 1 ] [ 1 ] = = 2 , " " ) ;
static_assert ( selfref [ 1 ] [ 0 ] [ 0 ] = = 1 , " " ) ;
static_assert ( selfref [ 1 ] [ 0 ] [ 1 ] = = 3 , " " ) ;
static_assert ( selfref [ 1 ] [ 1 ] [ 0 ] = = 0 , " " ) ;
static_assert ( selfref [ 1 ] [ 1 ] [ 1 ] = = 0 , " " ) ;
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struct TrivialDefCtor { int n ; } ;
typedef TrivialDefCtor TDCArray [ 2 ] [ 2 ] ;
static_assert ( TDCArray { } [ 1 ] [ 1 ] . n = = 0 , " " ) ;
struct NonAggregateTDC : TrivialDefCtor { } ;
typedef NonAggregateTDC NATDCArray [ 2 ] [ 2 ] ;
static_assert ( NATDCArray { } [ 1 ] [ 1 ] . n = = 0 , " " ) ;
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}
namespace DependentValues {
struct I { int n ; typedef I V [ 10 ] ; } ;
I : : V x , y ;
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int g ( ) ;
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template < bool B , typename T > struct S : T {
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int k ;
void f ( ) {
I : : V & cells = B ? x : y ;
I & i = cells [ k ] ;
switch ( i . n ) { }
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// FIXME: We should be able to diagnose this.
constexpr int n = g ( ) ;
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constexpr int m = this - > g ( ) ; // ok, could be constexpr
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}
} ;
}
namespace Class {
struct A { constexpr A ( int a , int b ) : k ( a + b ) { } int k ; } ;
constexpr int fn ( const A & a ) { return a . k ; }
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static_assert ( fn ( A ( 4 , 5 ) ) = = 9 , " " ) ;
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struct B { int n ; int m ; } constexpr b = { 0 , b . n } ; // expected-warning {{uninitialized}}
struct C {
constexpr C ( C * this_ ) : m ( 42 ) , n ( this_ - > m ) { } // ok
int m , n ;
} ;
struct D {
C c ;
constexpr D ( ) : c ( & c ) { }
} ;
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static_assert ( D ( ) . c . n = = 42 , " " ) ;
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struct E {
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constexpr E ( ) : p ( & p ) { }
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void * p ;
} ;
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constexpr const E & e1 = E ( ) ;
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// This is a constant expression if we elide the copy constructor call, and
// is not a constant expression if we don't! But we do, so it is.
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constexpr E e2 = E ( ) ;
static_assert ( e2 . p = = & e2 . p , " " ) ;
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constexpr E e3 ;
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static_assert ( e3 . p = = & e3 . p , " " ) ;
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extern const class F f ;
struct F {
constexpr F ( ) : p ( & f . p ) { }
const void * p ;
} ;
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constexpr F f ;
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struct G {
struct T {
constexpr T ( T * p ) : u1 ( ) , u2 ( p ) { }
union U1 {
constexpr U1 ( ) { }
int a , b = 42 ;
} u1 ;
union U2 {
constexpr U2 ( T * p ) : c ( p - > u1 . b ) { }
int c , d ;
} u2 ;
} t ;
constexpr G ( ) : t ( & t ) { }
} constexpr g ;
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static_assert ( g . t . u1 . a = = 42 , " " ) ; // expected-error {{constant expression}} expected-note {{read of member 'a' of union with active member 'b'}}
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static_assert ( g . t . u1 . b = = 42 , " " ) ;
static_assert ( g . t . u2 . c = = 42 , " " ) ;
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static_assert ( g . t . u2 . d = = 42 , " " ) ; // expected-error {{constant expression}} expected-note {{read of member 'd' of union with active member 'c'}}
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struct S {
int a , b ;
const S * p ;
double d ;
const char * q ;
constexpr S ( int n , const S * p ) : a ( 5 ) , b ( n ) , p ( p ) , d ( n ) , q ( " hello " ) { }
} ;
S global ( 43 , & global ) ;
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static_assert ( S ( 15 , & global ) . b = = 15 , " " ) ;
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constexpr bool CheckS ( const S & s ) {
return s . a = = 5 & & s . b = = 27 & & s . p = = & global & & s . d = = 27. & & s . q [ 3 ] = = ' l ' ;
}
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static_assert ( CheckS ( S ( 27 , & global ) ) , " " ) ;
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struct Arr {
char arr [ 3 ] ;
constexpr Arr ( ) : arr { ' x ' , ' y ' , ' z ' } { }
} ;
constexpr int hash ( Arr & & a ) {
return a . arr [ 0 ] + a . arr [ 1 ] * 0x100 + a . arr [ 2 ] * 0x10000 ;
}
constexpr int k = hash ( Arr ( ) ) ;
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static_assert ( k = = 0x007a7978 , " " ) ;
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struct AggregateInit {
const char & c ;
int n ;
double d ;
int arr [ 5 ] ;
void * p ;
} ;
constexpr AggregateInit agg1 = { " hello " [ 0 ] } ;
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static_assert ( strcmp_ce ( & agg1 . c , " hello " ) = = 0 , " " ) ;
static_assert ( agg1 . n = = 0 , " " ) ;
static_assert ( agg1 . d = = 0.0 , " " ) ;
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static_assert ( agg1 . arr [ - 1 ] = = 0 , " " ) ; // expected-error {{constant expression}} expected-note {{cannot refer to element -1}}
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static_assert ( agg1 . arr [ 0 ] = = 0 , " " ) ;
static_assert ( agg1 . arr [ 4 ] = = 0 , " " ) ;
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static_assert ( agg1 . arr [ 5 ] = = 0 , " " ) ; // expected-error {{constant expression}} expected-note {{read of dereferenced one-past-the-end}}
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static_assert ( agg1 . p = = nullptr , " " ) ;
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static constexpr const unsigned char uc [ ] = { " foo " } ;
static_assert ( uc [ 0 ] = = ' f ' , " " ) ;
static_assert ( uc [ 3 ] = = 0 , " " ) ;
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namespace SimpleDerivedClass {
struct B {
constexpr B ( int n ) : a ( n ) { }
int a ;
} ;
struct D : B {
constexpr D ( int n ) : B ( n ) { }
} ;
constexpr D d ( 3 ) ;
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static_assert ( d . a = = 3 , " " ) ;
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}
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struct Bottom { constexpr Bottom ( ) { } } ;
struct Base : Bottom {
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constexpr Base ( int a = 42 , const char * b = " test " ) : a ( a ) , b ( b ) { }
int a ;
const char * b ;
} ;
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struct Base2 : Bottom {
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constexpr Base2 ( const int & r ) : r ( r ) { }
int q = 123 ;
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const int & r ;
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} ;
struct Derived : Base , Base2 {
constexpr Derived ( ) : Base ( 76 ) , Base2 ( a ) { }
int c = r + b [ 1 ] ;
} ;
constexpr bool operator = = ( const Base & a , const Base & b ) {
return a . a = = b . a & & strcmp_ce ( a . b , b . b ) = = 0 ;
}
constexpr Base base ;
constexpr Base base2 ( 76 ) ;
constexpr Derived derived ;
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static_assert ( derived . a = = 76 , " " ) ;
static_assert ( derived . b [ 2 ] = = ' s ' , " " ) ;
static_assert ( derived . c = = 76 + ' e ' , " " ) ;
static_assert ( derived . q = = 123 , " " ) ;
static_assert ( derived . r = = 76 , " " ) ;
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static_assert ( & derived . r = = & derived . a , " " ) ;
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static_assert ( ! ( derived = = base ) , " " ) ;
static_assert ( derived = = base2 , " " ) ;
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constexpr Bottom & bot1 = ( Base & ) derived ;
constexpr Bottom & bot2 = ( Base2 & ) derived ;
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static_assert ( & bot1 ! = & bot2 , " " ) ;
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constexpr Bottom * pb1 = ( Base * ) & derived ;
constexpr Bottom * pb2 = ( Base2 * ) & derived ;
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static_assert ( & pb1 ! = & pb2 , " " ) ;
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static_assert ( pb1 = = & bot1 , " " ) ;
static_assert ( pb2 = = & bot2 , " " ) ;
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constexpr Base2 & fail = ( Base2 & ) bot1 ; // expected-error {{constant expression}} expected-note {{cannot cast object of dynamic type 'const Class::Derived' to type 'Class::Base2'}}
constexpr Base & fail2 = ( Base & ) * pb2 ; // expected-error {{constant expression}} expected-note {{cannot cast object of dynamic type 'const Class::Derived' to type 'Class::Base'}}
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constexpr Base2 & ok2 = ( Base2 & ) bot2 ;
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static_assert ( & ok2 = = & derived , " " ) ;
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constexpr Base2 * pfail = ( Base2 * ) pb1 ; // expected-error {{constant expression}} expected-note {{cannot cast object of dynamic type 'const Class::Derived' to type 'Class::Base2'}}
constexpr Base * pfail2 = ( Base * ) & bot2 ; // expected-error {{constant expression}} expected-note {{cannot cast object of dynamic type 'const Class::Derived' to type 'Class::Base'}}
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constexpr Base2 * pok2 = ( Base2 * ) pb2 ;
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static_assert ( pok2 = = & derived , " " ) ;
static_assert ( & ok2 = = pok2 , " " ) ;
static_assert ( ( Base2 * ) ( Derived * ) ( Base * ) pb1 = = pok2 , " " ) ;
static_assert ( ( Derived * ) ( Base * ) pb1 = = ( Derived * ) pok2 , " " ) ;
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// Core issue 903: we do not perform constant evaluation when checking for a
// null pointer in C++11. Just check for an integer literal with value 0.
constexpr Base * nullB = 42 - 6 * 7 ; // expected-error {{cannot initialize a variable of type 'Class::Base *const' with an rvalue of type 'int'}}
constexpr Base * nullB1 = 0 ;
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static_assert ( ( Bottom * ) nullB = = 0 , " " ) ;
static_assert ( ( Derived * ) nullB = = 0 , " " ) ;
static_assert ( ( void * ) ( Bottom * ) nullB = = ( void * ) ( Derived * ) nullB , " " ) ;
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Base * nullB2 = ' \0 ' ; // expected-error {{cannot initialize a variable of type 'Class::Base *' with an rvalue of type 'char'}}
Base * nullB3 = ( 0 ) ;
Base * nullB4 = false ; // expected-error {{cannot initialize a variable of type 'Class::Base *' with an rvalue of type 'bool'}}
Base * nullB5 = ( ( 0ULL ) ) ;
Base * nullB6 = 0. ; // expected-error {{cannot initialize a variable of type 'Class::Base *' with an rvalue of type 'double'}}
enum Null { kNull } ;
Base * nullB7 = kNull ; // expected-error {{cannot initialize a variable of type 'Class::Base *' with an rvalue of type 'Class::Null'}}
static_assert ( nullB1 = = ( 1 - 1 ) , " " ) ; // expected-error {{comparison between pointer and integer}}
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namespace ConversionOperators {
struct T {
constexpr T ( int n ) : k ( 5 * n - 3 ) { }
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constexpr operator int ( ) const { return k ; }
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int k ;
} ;
struct S {
constexpr S ( int n ) : k ( 2 * n + 1 ) { }
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constexpr operator int ( ) const { return k ; }
constexpr operator T ( ) const { return T ( k ) ; }
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int k ;
} ;
constexpr bool check ( T a , T b ) { return a = = b . k ; }
static_assert ( S ( 5 ) = = 11 , " " ) ;
static_assert ( check ( S ( 5 ) , 11 ) , " " ) ;
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namespace PR14171 {
struct X {
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constexpr ( operator int ) ( ) const { return 0 ; }
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} ;
static_assert ( X ( ) = = 0 , " " ) ;
}
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}
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}
namespace Temporaries {
struct S {
constexpr S ( ) { }
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constexpr int f ( ) const ;
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constexpr int g ( ) const ;
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} ;
struct T : S {
constexpr T ( int n ) : S ( ) , n ( n ) { }
int n ;
} ;
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constexpr int S : : f ( ) const {
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return static_cast < const T * > ( this ) - > n ; // expected-note {{cannot cast}}
}
constexpr int S : : g ( ) const {
// FIXME: Better diagnostic for this.
return this - > * ( int ( S : : * ) ) & T : : n ; // expected-note {{subexpression}}
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}
// The T temporary is implicitly cast to an S subobject, but we can recover the
// T full-object via a base-to-derived cast, or a derived-to-base-casted member
// pointer.
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static_assert ( S ( ) . f ( ) , " " ) ; // expected-error {{constant expression}} expected-note {{in call to '&Temporaries::S()->f()'}}
static_assert ( S ( ) . g ( ) , " " ) ; // expected-error {{constant expression}} expected-note {{in call to '&Temporaries::S()->g()'}}
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static_assert ( T ( 3 ) . f ( ) = = 3 , " " ) ;
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static_assert ( T ( 4 ) . g ( ) = = 4 , " " ) ;
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constexpr int f ( const S & s ) {
return static_cast < const T & > ( s ) . n ;
}
constexpr int n = f ( T ( 5 ) ) ;
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static_assert ( f ( T ( 5 ) ) = = 5 , " " ) ;
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constexpr bool b ( int n ) { return & n ; }
static_assert ( b ( 0 ) , " " ) ;
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}
namespace Union {
union U {
int a ;
int b ;
} ;
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constexpr U u [ 4 ] = { { . a = 0 } , { . b = 1 } , { . a = 2 } , { . b = 3 } } ; // expected-warning 4{{C99 feature}}
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static_assert ( u [ 0 ] . a = = 0 , " " ) ;
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static_assert ( u [ 0 ] . b , " " ) ; // expected-error {{constant expression}} expected-note {{read of member 'b' of union with active member 'a'}}
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static_assert ( u [ 1 ] . b = = 1 , " " ) ;
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static_assert ( ( & u [ 1 ] . b ) [ 1 ] = = 2 , " " ) ; // expected-error {{constant expression}} expected-note {{read of dereferenced one-past-the-end pointer}}
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static_assert ( * ( & ( u [ 1 ] . b ) + 1 + 1 ) = = 3 , " " ) ; // expected-error {{constant expression}} expected-note {{cannot refer to element 2 of non-array object}}
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static_assert ( ( & ( u [ 1 ] ) + 1 + 1 ) - > b = = 3 , " " ) ;
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constexpr U v = { } ;
static_assert ( v . a = = 0 , " " ) ;
union Empty { } ;
constexpr Empty e = { } ;
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// Make sure we handle trivial copy constructors for unions.
constexpr U x = { 42 } ;
constexpr U y = x ;
static_assert ( y . a = = 42 , " " ) ;
static_assert ( y . b = = 42 , " " ) ; // expected-error {{constant expression}} expected-note {{'b' of union with active member 'a'}}
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}
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namespace MemberPointer {
struct A {
constexpr A ( int n ) : n ( n ) { }
int n ;
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constexpr int f ( ) const { return n + 3 ; }
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} ;
constexpr A a ( 7 ) ;
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static_assert ( A ( 5 ) . * & A : : n = = 5 , " " ) ;
static_assert ( ( & a ) - > * & A : : n = = 7 , " " ) ;
static_assert ( ( A ( 8 ) . * & A : : f ) ( ) = = 11 , " " ) ;
static_assert ( ( ( & a ) - > * & A : : f ) ( ) = = 10 , " " ) ;
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struct B : A {
constexpr B ( int n , int m ) : A ( n ) , m ( m ) { }
int m ;
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constexpr int g ( ) const { return n + m + 1 ; }
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} ;
constexpr B b ( 9 , 13 ) ;
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static_assert ( B ( 4 , 11 ) . * & A : : n = = 4 , " " ) ;
static_assert ( B ( 4 , 11 ) . * & B : : m = = 11 , " " ) ;
static_assert ( B ( 4 , 11 ) . * ( int ( A : : * ) ) & B : : m = = 11 , " " ) ;
static_assert ( ( & b ) - > * & A : : n = = 9 , " " ) ;
static_assert ( ( & b ) - > * & B : : m = = 13 , " " ) ;
static_assert ( ( & b ) - > * ( int ( A : : * ) ) & B : : m = = 13 , " " ) ;
static_assert ( ( B ( 4 , 11 ) . * & A : : f ) ( ) = = 7 , " " ) ;
static_assert ( ( B ( 4 , 11 ) . * & B : : g ) ( ) = = 16 , " " ) ;
static_assert ( ( B ( 4 , 11 ) . * ( int ( A : : * ) ( ) const ) & B : : g ) ( ) = = 16 , " " ) ;
static_assert ( ( ( & b ) - > * & A : : f ) ( ) = = 12 , " " ) ;
static_assert ( ( ( & b ) - > * & B : : g ) ( ) = = 23 , " " ) ;
static_assert ( ( ( & b ) - > * ( int ( A : : * ) ( ) const ) & B : : g ) ( ) = = 23 , " " ) ;
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struct S {
constexpr S ( int m , int n , int ( S : : * pf ) ( ) const , int S : : * pn ) :
m ( m ) , n ( n ) , pf ( pf ) , pn ( pn ) { }
constexpr S ( ) : m ( ) , n ( ) , pf ( & S : : f ) , pn ( & S : : n ) { }
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constexpr int f ( ) const { return this - > * pn ; }
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virtual int g ( ) const ;
int m , n ;
int ( S : : * pf ) ( ) const ;
int S : : * pn ;
} ;
constexpr int S : : * pm = & S : : m ;
constexpr int S : : * pn = & S : : n ;
constexpr int ( S : : * pf ) ( ) const = & S : : f ;
constexpr int ( S : : * pg ) ( ) const = & S : : g ;
constexpr S s ( 2 , 5 , & S : : f , & S : : m ) ;
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static_assert ( ( s . * & S : : f ) ( ) = = 2 , " " ) ;
static_assert ( ( s . * s . pf ) ( ) = = 2 , " " ) ;
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static_assert ( pf = = & S : : f , " " ) ;
static_assert ( pf = = s . * & S : : pf , " " ) ;
static_assert ( pm = = & S : : m , " " ) ;
static_assert ( pm ! = pn , " " ) ;
static_assert ( s . pn ! = pn , " " ) ;
static_assert ( s . pn = = pm , " " ) ;
static_assert ( pg ! = nullptr , " " ) ;
static_assert ( pf ! = nullptr , " " ) ;
static_assert ( ( int S : : * ) nullptr = = nullptr , " " ) ;
static_assert ( pg = = pg , " " ) ; // expected-error {{constant expression}} expected-note {{comparison of pointer to virtual member function 'g' has unspecified value}}
static_assert ( pf ! = pg , " " ) ; // expected-error {{constant expression}} expected-note {{comparison of pointer to virtual member function 'g' has unspecified value}}
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template < int n > struct T : T < n - 1 > { } ;
template < > struct T < 0 > { int n ; } ;
template < > struct T < 30 > : T < 29 > { int m ; } ;
T < 17 > t17 ;
T < 30 > t30 ;
constexpr int ( T < 10 > : : * deepn ) = & T < 0 > : : n ;
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static_assert ( & ( t17 . * deepn ) = = & t17 . n , " " ) ;
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static_assert ( deepn = = & T < 2 > : : n , " " ) ;
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constexpr int ( T < 15 > : : * deepm ) = ( int ( T < 10 > : : * ) ) & T < 30 > : : m ;
constexpr int * pbad = & ( t17 . * deepm ) ; // expected-error {{constant expression}}
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static_assert ( & ( t30 . * deepm ) = = & t30 . m , " " ) ;
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static_assert ( deepm = = & T < 50 > : : m , " " ) ;
static_assert ( deepm ! = deepn , " " ) ;
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constexpr T < 5 > * p17_5 = & t17 ;
constexpr T < 13 > * p17_13 = ( T < 13 > * ) p17_5 ;
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constexpr T < 23 > * p17_23 = ( T < 23 > * ) p17_13 ; // expected-error {{constant expression}} expected-note {{cannot cast object of dynamic type 'T<17>' to type 'T<23>'}}
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static_assert ( & ( p17_5 - > * ( int ( T < 3 > : : * ) ) deepn ) = = & t17 . n , " " ) ;
static_assert ( & ( p17_13 - > * deepn ) = = & t17 . n , " " ) ;
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constexpr int * pbad2 = & ( p17_13 - > * ( int ( T < 9 > : : * ) ) deepm ) ; // expected-error {{constant expression}}
constexpr T < 5 > * p30_5 = & t30 ;
constexpr T < 23 > * p30_23 = ( T < 23 > * ) p30_5 ;
constexpr T < 13 > * p30_13 = p30_23 ;
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static_assert ( & ( p30_5 - > * ( int ( T < 3 > : : * ) ) deepn ) = = & t30 . n , " " ) ;
static_assert ( & ( p30_13 - > * deepn ) = = & t30 . n , " " ) ;
static_assert ( & ( p30_23 - > * deepn ) = = & t30 . n , " " ) ;
static_assert ( & ( p30_5 - > * ( int ( T < 2 > : : * ) ) deepm ) = = & t30 . m , " " ) ;
static_assert ( & ( ( ( T < 17 > * ) p30_13 ) - > * deepm ) = = & t30 . m , " " ) ;
static_assert ( & ( p30_23 - > * deepm ) = = & t30 . m , " " ) ;
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struct Base { int n ; } ;
template < int N > struct Mid : Base { } ;
struct Derived : Mid < 0 > , Mid < 1 > { } ;
static_assert ( & Mid < 0 > : : n = = & Mid < 1 > : : n , " " ) ;
static_assert ( ( int Derived : : * ) ( int Mid < 0 > : : * ) & Mid < 0 > : : n ! =
( int Derived : : * ) ( int Mid < 1 > : : * ) & Mid < 1 > : : n , " " ) ;
static_assert ( & Mid < 0 > : : n = = ( int Mid < 0 > : : * ) & Base : : n , " " ) ;
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}
namespace ArrayBaseDerived {
struct Base {
constexpr Base ( ) { }
int n = 0 ;
} ;
struct Derived : Base {
constexpr Derived ( ) { }
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constexpr const int * f ( ) const { return & n ; }
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} ;
constexpr Derived a [ 10 ] ;
constexpr Derived * pd3 = const_cast < Derived * > ( & a [ 3 ] ) ;
constexpr Base * pb3 = const_cast < Derived * > ( & a [ 3 ] ) ;
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static_assert ( pb3 = = pd3 , " " ) ;
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// pb3 does not point to an array element.
constexpr Base * pb4 = pb3 + 1 ; // ok, one-past-the-end pointer.
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constexpr int pb4n = pb4 - > n ; // expected-error {{constant expression}} expected-note {{cannot access field of pointer past the end}}
constexpr Base * err_pb5 = pb3 + 2 ; // expected-error {{constant expression}} expected-note {{cannot refer to element 2}} expected-note {{here}}
constexpr int err_pb5n = err_pb5 - > n ; // expected-error {{constant expression}} expected-note {{initializer of 'err_pb5' is not a constant expression}}
constexpr Base * err_pb2 = pb3 - 1 ; // expected-error {{constant expression}} expected-note {{cannot refer to element -1}} expected-note {{here}}
constexpr int err_pb2n = err_pb2 - > n ; // expected-error {{constant expression}} expected-note {{initializer of 'err_pb2'}}
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constexpr Base * pb3a = pb4 - 1 ;
// pb4 does not point to a Derived.
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constexpr Derived * err_pd4 = ( Derived * ) pb4 ; // expected-error {{constant expression}} expected-note {{cannot access derived class of pointer past the end}}
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constexpr Derived * pd3a = ( Derived * ) pb3a ;
constexpr int pd3n = pd3a - > n ;
// pd3a still points to the Derived array.
constexpr Derived * pd6 = pd3a + 3 ;
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static_assert ( pd6 = = & a [ 6 ] , " " ) ;
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constexpr Derived * pd9 = pd6 + 3 ;
constexpr Derived * pd10 = pd6 + 4 ;
constexpr int pd9n = pd9 - > n ; // ok
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constexpr int err_pd10n = pd10 - > n ; // expected-error {{constant expression}} expected-note {{cannot access base class of pointer past the end}}
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constexpr int pd0n = pd10 [ - 10 ] . n ;
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constexpr int err_pdminus1n = pd10 [ - 11 ] . n ; // expected-error {{constant expression}} expected-note {{cannot refer to element -1 of}}
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constexpr Base * pb9 = pd9 ;
constexpr const int * ( Base : : * pfb ) ( ) const =
static_cast < const int * ( Base : : * ) ( ) const > ( & Derived : : f ) ;
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static_assert ( ( pb9 - > * pfb ) ( ) = = & a [ 9 ] . n , " " ) ;
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}
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namespace Complex {
class complex {
int re , im ;
public :
constexpr complex ( int re = 0 , int im = 0 ) : re ( re ) , im ( im ) { }
constexpr complex ( const complex & o ) : re ( o . re ) , im ( o . im ) { }
constexpr complex operator - ( ) const { return complex ( - re , - im ) ; }
friend constexpr complex operator + ( const complex & l , const complex & r ) {
return complex ( l . re + r . re , l . im + r . im ) ;
}
friend constexpr complex operator - ( const complex & l , const complex & r ) {
return l + - r ;
}
friend constexpr complex operator * ( const complex & l , const complex & r ) {
return complex ( l . re * r . re - l . im * r . im , l . re * r . im + l . im * r . re ) ;
}
friend constexpr bool operator = = ( const complex & l , const complex & r ) {
return l . re = = r . re & & l . im = = r . im ;
}
constexpr bool operator ! = ( const complex & r ) const {
return re ! = r . re | | im ! = r . im ;
}
constexpr int real ( ) const { return re ; }
constexpr int imag ( ) const { return im ; }
} ;
constexpr complex i = complex ( 0 , 1 ) ;
constexpr complex k = ( 3 + 4 * i ) * ( 6 - 4 * i ) ;
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static_assert ( complex ( 1 , 0 ) . real ( ) = = 1 , " " ) ;
static_assert ( complex ( 1 , 0 ) . imag ( ) = = 0 , " " ) ;
static_assert ( ( ( complex ) 1 ) . imag ( ) = = 0 , " " ) ;
static_assert ( k . real ( ) = = 34 , " " ) ;
static_assert ( k . imag ( ) = = 12 , " " ) ;
static_assert ( k - 34 = = 12 * i , " " ) ;
static_assert ( ( complex ) 1 = = complex ( 1 ) , " " ) ;
static_assert ( ( complex ) 1 ! = complex ( 0 , 1 ) , " " ) ;
static_assert ( complex ( 1 ) = = complex ( 1 ) , " " ) ;
static_assert ( complex ( 1 ) ! = complex ( 0 , 1 ) , " " ) ;
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constexpr complex makeComplex ( int re , int im ) { return complex ( re , im ) ; }
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static_assert ( makeComplex ( 1 , 0 ) = = complex ( 1 ) , " " ) ;
static_assert ( makeComplex ( 1 , 0 ) ! = complex ( 0 , 1 ) , " " ) ;
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class complex_wrap : public complex {
public :
constexpr complex_wrap ( int re , int im = 0 ) : complex ( re , im ) { }
constexpr complex_wrap ( const complex_wrap & o ) : complex ( o ) { }
} ;
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static_assert ( ( complex_wrap ) 1 = = complex ( 1 ) , " " ) ;
static_assert ( ( complex ) 1 ! = complex_wrap ( 0 , 1 ) , " " ) ;
static_assert ( complex ( 1 ) = = complex_wrap ( 1 ) , " " ) ;
static_assert ( complex_wrap ( 1 ) ! = complex ( 0 , 1 ) , " " ) ;
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constexpr complex_wrap makeComplexWrap ( int re , int im ) {
return complex_wrap ( re , im ) ;
}
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static_assert ( makeComplexWrap ( 1 , 0 ) = = complex ( 1 ) , " " ) ;
static_assert ( makeComplexWrap ( 1 , 0 ) ! = complex ( 0 , 1 ) , " " ) ;
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}
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namespace PR11595 {
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struct A { constexpr bool operator = = ( int x ) const { return true ; } } ;
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struct B { B ( ) ; A & x ; } ;
static_assert ( B ( ) . x = = 3 , " " ) ; // expected-error {{constant expression}} expected-note {{non-literal type 'PR11595::B' cannot be used in a constant expression}}
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constexpr bool f ( int k ) { // expected-error {{constexpr function never produces a constant expression}}
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return B ( ) . x = = k ; // expected-note {{non-literal type 'PR11595::B' cannot be used in a constant expression}}
}
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}
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namespace ExprWithCleanups {
struct A { A ( ) ; ~ A ( ) ; int get ( ) ; } ;
constexpr int get ( bool FromA ) { return FromA ? A ( ) . get ( ) : 1 ; }
constexpr int n = get ( false ) ;
}
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namespace Volatile {
volatile constexpr int n1 = 0 ; // expected-note {{here}}
volatile const int n2 = 0 ; // expected-note {{here}}
int n3 = 37 ; // expected-note {{declared here}}
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constexpr int m1 = n1 ; // expected-error {{constant expression}} expected-note {{read of volatile-qualified type 'const volatile int'}}
constexpr int m2 = n2 ; // expected-error {{constant expression}} expected-note {{read of volatile-qualified type 'const volatile int'}}
constexpr int m1b = const_cast < const int & > ( n1 ) ; // expected-error {{constant expression}} expected-note {{read of volatile object 'n1'}}
constexpr int m2b = const_cast < const int & > ( n2 ) ; // expected-error {{constant expression}} expected-note {{read of volatile object 'n2'}}
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struct T { int n ; } ;
const T t = { 42 } ; // expected-note {{declared here}}
constexpr int f ( volatile int & & r ) {
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return r ; // expected-note {{read of volatile-qualified type 'volatile int'}}
}
constexpr int g ( volatile int & & r ) {
return const_cast < int & > ( r ) ; // expected-note {{read of volatile temporary is not allowed in a constant expression}}
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}
struct S {
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int j : f ( 0 ) ; // expected-error {{constant expression}} expected-note {{in call to 'f(0)'}}
int k : g ( 0 ) ; // expected-error {{constant expression}} expected-note {{temporary created here}} expected-note {{in call to 'g(0)'}}
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int l : n3 ; // expected-error {{constant expression}} expected-note {{read of non-const variable}}
int m : t . n ; // expected-error {{constant expression}} expected-note {{read of non-constexpr variable}}
} ;
}
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namespace ExternConstexpr {
extern constexpr int n = 0 ;
extern constexpr int m ; // expected-error {{constexpr variable declaration must be a definition}}
void f ( ) {
extern constexpr int i ; // expected-error {{constexpr variable declaration must be a definition}}
constexpr int j = 0 ;
constexpr int k ; // expected-error {{default initialization of an object of const type}}
}
}
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namespace ComplexConstexpr {
constexpr _Complex float test1 = { } ;
constexpr _Complex float test2 = { 1 } ;
constexpr _Complex double test3 = { 1 , 2 } ;
constexpr _Complex int test4 = { 4 } ;
constexpr _Complex int test5 = 4 ;
constexpr _Complex int test6 = { 5 , 6 } ;
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typedef _Complex float fcomplex ;
constexpr fcomplex test7 = fcomplex ( ) ;
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constexpr const double & t2r = __real test3 ;
constexpr const double & t2i = __imag test3 ;
static_assert ( & t2r + 1 = = & t2i , " " ) ;
static_assert ( t2r = = 1.0 , " " ) ;
static_assert ( t2i = = 2.0 , " " ) ;
constexpr const double * t2p = & t2r ;
static_assert ( t2p [ - 1 ] = = 0.0 , " " ) ; // expected-error {{constant expr}} expected-note {{cannot refer to element -1 of array of 2 elements}}
static_assert ( t2p [ 0 ] = = 1.0 , " " ) ;
static_assert ( t2p [ 1 ] = = 2.0 , " " ) ;
static_assert ( t2p [ 2 ] = = 0.0 , " " ) ; // expected-error {{constant expr}} expected-note {{one-past-the-end pointer}}
static_assert ( t2p [ 3 ] = = 0.0 , " " ) ; // expected-error {{constant expr}} expected-note {{cannot refer to element 3 of array of 2 elements}}
constexpr _Complex float * p = 0 ;
constexpr float pr = __real * p ; // expected-error {{constant expr}} expected-note {{cannot access real component of null}}
constexpr float pi = __imag * p ; // expected-error {{constant expr}} expected-note {{cannot access imaginary component of null}}
constexpr const _Complex double * q = & test3 + 1 ;
constexpr double qr = __real * q ; // expected-error {{constant expr}} expected-note {{cannot access real component of pointer past the end}}
constexpr double qi = __imag * q ; // expected-error {{constant expr}} expected-note {{cannot access imaginary component of pointer past the end}}
static_assert ( __real test6 = = 5 , " " ) ;
static_assert ( __imag test6 = = 6 , " " ) ;
static_assert ( & __imag test6 = = & __real test6 + 1 , " " ) ;
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}
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// _Atomic(T) is exactly like T for the purposes of constant expression
// evaluation..
namespace Atomic {
constexpr _Atomic int n = 3 ;
struct S { _Atomic ( double ) d ; } ;
constexpr S s = { 0.5 } ;
constexpr double d1 = s . d ;
constexpr double d2 = n ;
constexpr _Atomic double d3 = n ;
constexpr _Atomic ( int ) n2 = d3 ;
static_assert ( d1 = = 0.5 , " " ) ;
static_assert ( d3 = = 3.0 , " " ) ;
namespace PR16056 {
struct TestVar {
_Atomic ( int ) value ;
constexpr TestVar ( int value ) : value ( value ) { }
} ;
constexpr TestVar testVar { - 1 } ;
static_assert ( testVar . value = = - 1 , " " ) ;
}
}
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namespace InstantiateCaseStmt {
template < int x > constexpr int f ( ) { return x ; }
template < int x > int g ( int c ) { switch ( c ) { case f < x > ( ) : return 1 ; } return 0 ; }
int gg ( int c ) { return g < 4 > ( c ) ; }
}
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namespace ConvertedConstantExpr {
extern int & m ;
extern int & n ;
constexpr int k = 4 ;
int & m = const_cast < int & > ( k ) ;
// If we have nothing more interesting to say, ensure we don't produce a
// useless note and instead just point to the non-constant subexpression.
enum class E {
em = m ,
en = n , // expected-error {{not a constant expression}}
eo = ( m +
n // expected-error {{not a constant expression}}
) ,
eq = reinterpret_cast < int > ( ( int * ) 0 ) // expected-error {{not a constant expression}} expected-note {{reinterpret_cast}}
} ;
}
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namespace IndirectField {
struct S {
struct { // expected-warning {{GNU extension}}
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union { // expected-warning {{declared in an anonymous struct}}
struct { // expected-warning {{GNU extension}} expected-warning {{declared in an anonymous union}}
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int a ;
int b ;
} ;
int c ;
} ;
int d ;
} ;
union {
int e ;
int f ;
} ;
constexpr S ( int a , int b , int d , int e ) : a ( a ) , b ( b ) , d ( d ) , e ( e ) { }
constexpr S ( int c , int d , int f ) : c ( c ) , d ( d ) , f ( f ) { }
} ;
constexpr S s1 ( 1 , 2 , 3 , 4 ) ;
constexpr S s2 ( 5 , 6 , 7 ) ;
// FIXME: The diagnostics here do a very poor job of explaining which unnamed
// member is active and which is requested.
static_assert ( s1 . a = = 1 , " " ) ;
static_assert ( s1 . b = = 2 , " " ) ;
static_assert ( s1 . c = = 0 , " " ) ; // expected-error {{constant expression}} expected-note {{union with active member}}
static_assert ( s1 . d = = 3 , " " ) ;
static_assert ( s1 . e = = 4 , " " ) ;
static_assert ( s1 . f = = 0 , " " ) ; // expected-error {{constant expression}} expected-note {{union with active member}}
static_assert ( s2 . a = = 0 , " " ) ; // expected-error {{constant expression}} expected-note {{union with active member}}
static_assert ( s2 . b = = 0 , " " ) ; // expected-error {{constant expression}} expected-note {{union with active member}}
static_assert ( s2 . c = = 5 , " " ) ;
static_assert ( s2 . d = = 6 , " " ) ;
static_assert ( s2 . e = = 0 , " " ) ; // expected-error {{constant expression}} expected-note {{union with active member}}
static_assert ( s2 . f = = 7 , " " ) ;
}
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// DR1405: don't allow reading mutable members in constant expressions.
namespace MutableMembers {
struct MM {
mutable int n ; // expected-note 3{{declared here}}
} constexpr mm = { 4 } ;
constexpr int mmn = mm . n ; // expected-error {{constant expression}} expected-note {{read of mutable member 'n' is not allowed in a constant expression}}
int x = ( mm . n = 1 , 3 ) ;
constexpr int mmn2 = mm . n ; // expected-error {{constant expression}} expected-note {{read of mutable member 'n' is not allowed in a constant expression}}
// Here's one reason why allowing this would be a disaster...
template < int n > struct Id { int k = n ; } ;
int f ( ) {
constexpr MM m = { 0 } ;
+ + m . n ;
return Id < m . n > ( ) . k ; // expected-error {{not a constant expression}} expected-note {{read of mutable member 'n' is not allowed in a constant expression}}
}
struct A { int n ; } ;
struct B { mutable A a ; } ; // expected-note {{here}}
struct C { B b ; } ;
constexpr C c [ 3 ] = { } ;
constexpr int k = c [ 1 ] . b . a . n ; // expected-error {{constant expression}} expected-note {{mutable}}
}
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namespace Fold {
// This macro forces its argument to be constant-folded, even if it's not
// otherwise a constant expression.
# define fold(x) (__builtin_constant_p(x) ? (x) : (x))
constexpr int n = ( int ) ( char * ) 123 ; // expected-error {{constant expression}} expected-note {{reinterpret_cast}}
constexpr int m = fold ( ( int ) ( char * ) 123 ) ; // ok
static_assert ( m = = 123 , " " ) ;
# undef fold
}
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namespace DR1454 {
constexpr const int & f ( const int & n ) { return n ; }
constexpr int k1 = f ( 0 ) ; // ok
struct Wrap {
const int & value ;
} ;
constexpr const Wrap & g ( const Wrap & w ) { return w ; }
constexpr int k2 = g ( { 0 } ) . value ; // ok
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// The temporary here has static storage duration, so we can bind a constexpr
// reference to it.
constexpr const int & i = 1 ;
constexpr const int j = i ;
static_assert ( j = = 1 , " " ) ;
// The temporary here is not const, so it can't be read outside the expression
// in which it was created (per the C++14 rules, which we use to avoid a C++11
// defect).
constexpr int & & k = 1 ; // expected-note {{temporary created here}}
constexpr const int l = k ; // expected-error {{constant expression}} expected-note {{read of temporary}}
void f ( ) {
// The temporary here has automatic storage duration, so we can't bind a
// constexpr reference to it.
constexpr const int & i = 1 ; // expected-error {{constant expression}} expected-note 2{{temporary}}
}
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}
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namespace RecursiveOpaqueExpr {
template < typename Iter >
constexpr auto LastNonzero ( Iter p , Iter q ) - > decltype ( + * p ) {
return p ! = q ? ( LastNonzero ( p + 1 , q ) ? : * p ) : 0 ; // expected-warning {{GNU}}
}
constexpr int arr1 [ ] = { 1 , 0 , 0 , 3 , 0 , 2 , 0 , 4 , 0 , 0 } ;
static_assert ( LastNonzero ( begin ( arr1 ) , end ( arr1 ) ) = = 4 , " " ) ;
constexpr int arr2 [ ] = { 1 , 0 , 0 , 3 , 0 , 2 , 0 , 4 , 0 , 5 } ;
static_assert ( LastNonzero ( begin ( arr2 ) , end ( arr2 ) ) = = 5 , " " ) ;
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constexpr int arr3 [ ] = {
1 , 0 , 0 , 1 , 0 , 1 , 0 , 1 , 0 , 1 , 0 , 0 , 0 , 1 , 0 , 0 , 1 , 0 , 0 , 0 , 0 , 1 , 0 , 0 , 0 ,
1 , 0 , 0 , 1 , 0 , 1 , 0 , 1 , 0 , 1 , 0 , 0 , 0 , 1 , 0 , 0 , 1 , 0 , 0 , 0 , 0 , 1 , 0 , 0 , 0 ,
1 , 0 , 0 , 1 , 0 , 1 , 0 , 1 , 0 , 1 , 0 , 0 , 0 , 1 , 0 , 0 , 1 , 0 , 0 , 0 , 0 , 1 , 0 , 0 , 0 ,
1 , 0 , 0 , 1 , 0 , 1 , 0 , 1 , 0 , 1 , 0 , 0 , 0 , 1 , 0 , 0 , 1 , 0 , 0 , 0 , 0 , 1 , 0 , 0 , 0 ,
1 , 0 , 0 , 1 , 0 , 1 , 0 , 1 , 0 , 1 , 0 , 0 , 0 , 1 , 0 , 0 , 1 , 0 , 0 , 0 , 0 , 1 , 0 , 0 , 0 ,
1 , 0 , 0 , 1 , 0 , 1 , 0 , 1 , 0 , 1 , 0 , 0 , 0 , 1 , 0 , 0 , 1 , 0 , 0 , 0 , 0 , 1 , 0 , 0 , 0 ,
1 , 0 , 0 , 1 , 0 , 1 , 0 , 1 , 0 , 1 , 0 , 0 , 0 , 1 , 0 , 0 , 1 , 0 , 0 , 0 , 0 , 1 , 0 , 0 , 0 ,
2 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 , 0 } ;
static_assert ( LastNonzero ( begin ( arr3 ) , end ( arr3 ) ) = = 2 , " " ) ;
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}
namespace VLASizeof {
void f ( int k ) {
int arr [ k ] ; // expected-warning {{C99}}
constexpr int n = 1 +
sizeof ( arr ) // expected-error {{constant expression}}
* 3 ;
}
}
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namespace CompoundLiteral {
// FIXME:
// We don't model the semantics of this correctly: the compound literal is
// represented as a prvalue in the AST, but actually behaves like an lvalue.
// We treat the compound literal as a temporary and refuse to produce a
// pointer to it. This is OK: we're not required to treat this as a constant
// in C++, and in C we model compound literals as lvalues.
constexpr int * p = ( int * ) ( int [ 1 ] ) { 0 } ; // expected-warning {{C99}} expected-error {{constant expression}} expected-note 2{{temporary}}
}
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namespace Vector {
typedef int __attribute__ ( ( vector_size ( 16 ) ) ) VI4 ;
constexpr VI4 f ( int n ) {
return VI4 { n * 3 , n + 4 , n - 5 , n / 6 } ;
}
constexpr auto v1 = f ( 10 ) ;
typedef double __attribute__ ( ( vector_size ( 32 ) ) ) VD4 ;
constexpr VD4 g ( int n ) {
return ( VD4 ) { n / 2.0 , n + 1.5 , n - 5.4 , n * 0.9 } ; // expected-warning {{C99}}
}
constexpr auto v2 = g ( 4 ) ;
}
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// PR12626, redux
namespace InvalidClasses {
void test0 ( ) {
struct X ; // expected-note {{forward declaration}}
struct Y { bool b ; X x ; } ; // expected-error {{field has incomplete type}}
Y y ;
auto & b = y . b ;
}
}
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namespace NamespaceAlias {
constexpr int f ( ) {
namespace NS = NamespaceAlias ; // expected-warning {{use of this statement in a constexpr function is a C++1y extension}}
return & NS : : f ! = nullptr ;
}
}
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// Constructors can be implicitly constexpr, even for a non-literal type.
namespace ImplicitConstexpr {
struct Q { Q ( ) = default ; Q ( const Q & ) = default ; Q ( Q & & ) = default ; ~ Q ( ) ; } ; // expected-note 3{{here}}
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struct R { constexpr R ( ) noexcept ; constexpr R ( const R & ) noexcept ; constexpr R ( R & & ) noexcept ; ~ R ( ) noexcept ; } ;
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struct S { R r ; } ; // expected-note 3{{here}}
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struct T { T ( const T & ) noexcept ; T ( T & & ) noexcept ; ~ T ( ) noexcept ; } ;
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struct U { T t ; } ; // expected-note 3{{here}}
static_assert ( ! __is_literal_type ( Q ) , " " ) ;
static_assert ( ! __is_literal_type ( R ) , " " ) ;
static_assert ( ! __is_literal_type ( S ) , " " ) ;
static_assert ( ! __is_literal_type ( T ) , " " ) ;
static_assert ( ! __is_literal_type ( U ) , " " ) ;
struct Test {
friend Q : : Q ( ) noexcept ; // expected-error {{follows constexpr}}
friend Q : : Q ( Q & & ) noexcept ; // expected-error {{follows constexpr}}
friend Q : : Q ( const Q & ) noexcept ; // expected-error {{follows constexpr}}
friend S : : S ( ) noexcept ; // expected-error {{follows constexpr}}
friend S : : S ( S & & ) noexcept ; // expected-error {{follows constexpr}}
friend S : : S ( const S & ) noexcept ; // expected-error {{follows constexpr}}
friend constexpr U : : U ( ) noexcept ; // expected-error {{follows non-constexpr}}
friend constexpr U : : U ( U & & ) noexcept ; // expected-error {{follows non-constexpr}}
friend constexpr U : : U ( const U & ) noexcept ; // expected-error {{follows non-constexpr}}
} ;
}
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// Indirectly test that an implicit lvalue to xvalue conversion performed for
// an NRVO move operation isn't implemented as CK_LValueToRValue.
namespace PR12826 {
struct Foo { } ;
constexpr Foo id ( Foo x ) { return x ; }
constexpr Foo res ( id ( Foo ( ) ) ) ;
}
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namespace PR13273 {
struct U {
int t ;
U ( ) = default ;
} ;
struct S : U {
S ( ) = default ;
} ;
// S's default constructor isn't constexpr, because U's default constructor
// doesn't initialize 't', but it's trivial, so value-initialization doesn't
// actually call it.
static_assert ( S { } . t = = 0 , " " ) ;
}
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namespace PR12670 {
struct S {
constexpr S ( int a0 ) : m ( a0 ) { }
constexpr S ( ) : m ( 6 ) { }
int m ;
} ;
constexpr S x [ 3 ] = { { 4 } , 5 } ;
static_assert ( x [ 0 ] . m = = 4 , " " ) ;
static_assert ( x [ 1 ] . m = = 5 , " " ) ;
static_assert ( x [ 2 ] . m = = 6 , " " ) ;
}
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// Indirectly test that an implicit lvalue-to-rvalue conversion is performed
// when a conditional operator has one argument of type void and where the other
// is a glvalue of class type.
namespace ConditionalLValToRVal {
struct A {
constexpr A ( int a ) : v ( a ) { }
int v ;
} ;
constexpr A f ( const A & a ) {
return a . v = = 0 ? throw a : a ;
}
constexpr A a ( 4 ) ;
static_assert ( f ( a ) . v = = 4 , " " ) ;
}
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namespace TLS {
__thread int n ;
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int m ;
constexpr bool b = & n = = & n ;
constexpr int * p = & n ; // expected-error{{constexpr variable 'p' must be initialized by a constant expression}}
constexpr int * f ( ) { return & n ; }
constexpr int * q = f ( ) ; // expected-error{{constexpr variable 'q' must be initialized by a constant expression}}
constexpr bool c = f ( ) = = f ( ) ;
constexpr int * g ( ) { return & m ; }
constexpr int * r = g ( ) ;
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}
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namespace Void {
constexpr void f ( ) { return ; } // expected-error{{constexpr function's return type 'void' is not a literal type}}
void assert_failed ( const char * msg , const char * file , int line ) ; // expected-note {{declared here}}
# define ASSERT(expr) ((expr) ? static_cast<void>(0) : assert_failed(#expr, __FILE__, __LINE__))
template < typename T , size_t S >
constexpr T get ( T ( & a ) [ S ] , size_t k ) {
return ASSERT ( k > 0 & & k < S ) , a [ k ] ; // expected-note{{non-constexpr function 'assert_failed'}}
}
# undef ASSERT
template int get ( int ( & a ) [ 4 ] , size_t ) ;
constexpr int arr [ ] = { 4 , 1 , 2 , 3 , 4 } ;
static_assert ( get ( arr , 1 ) = = 1 , " " ) ;
static_assert ( get ( arr , 4 ) = = 4 , " " ) ;
static_assert ( get ( arr , 0 ) = = 4 , " " ) ; / / expected - error { { not an integral constant expression } } \
// expected-note{{in call to 'get(arr, 0)'}}
}
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namespace std { struct type_info ; }
namespace TypeId {
struct A { virtual ~ A ( ) ; } ;
A f ( ) ;
A & g ( ) ;
constexpr auto & x = typeid ( f ( ) ) ;
constexpr auto & y = typeid ( g ( ) ) ; / / expected - error { { constant expression } } \
// expected-note{{typeid applied to expression of polymorphic type 'TypeId::A' is not allowed in a constant expression}}
}
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namespace PR14203 {
struct duration {
constexpr duration ( ) { }
constexpr operator int ( ) const { return 0 ; }
} ;
template < typename T > void f ( ) {
// If we want to evaluate this at the point of the template definition, we
// need to trigger the implicit definition of the move constructor at that
// point.
// FIXME: C++ does not permit us to implicitly define it at the appropriate
// times, since it is only allowed to be implicitly defined when it is
// odr-used.
constexpr duration d = duration ( ) ;
}
// FIXME: It's unclear whether this is valid. On the one hand, we're not
// allowed to generate a move constructor. On the other hand, if we did,
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// this would be a constant expression. For now, we generate a move
// constructor here.
int n = sizeof ( short { duration ( duration ( ) ) } ) ;
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}
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namespace ArrayEltInit {
struct A {
constexpr A ( ) : p ( & p ) { }
void * p ;
} ;
constexpr A a [ 10 ] ;
static_assert ( a [ 0 ] . p = = & a [ 0 ] . p , " " ) ;
static_assert ( a [ 9 ] . p = = & a [ 9 ] . p , " " ) ;
static_assert ( a [ 0 ] . p ! = & a [ 9 ] . p , " " ) ;
static_assert ( a [ 9 ] . p ! = & a [ 0 ] . p , " " ) ;
constexpr A b [ 10 ] = { } ;
static_assert ( b [ 0 ] . p = = & b [ 0 ] . p , " " ) ;
static_assert ( b [ 9 ] . p = = & b [ 9 ] . p , " " ) ;
static_assert ( b [ 0 ] . p ! = & b [ 9 ] . p , " " ) ;
static_assert ( b [ 9 ] . p ! = & b [ 0 ] . p , " " ) ;
}
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namespace PR15884 {
struct S { } ;
constexpr S f ( ) { return { } ; }
constexpr S * p = & f ( ) ;
// expected-error@-1 {{taking the address of a temporary}}
// expected-error@-2 {{constexpr variable 'p' must be initialized by a constant expression}}
// expected-note@-3 {{pointer to temporary is not a constant expression}}
// expected-note@-4 {{temporary created here}}
}
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namespace AfterError {
// FIXME: Suppress the 'no return statements' diagnostic if the body is invalid.
constexpr int error ( ) { // expected-error {{no return statement}}
return foobar ; // expected-error {{undeclared identifier}}
}
constexpr int k = error ( ) ; // expected-error {{must be initialized by a constant expression}}
}
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namespace std {
typedef decltype ( sizeof ( int ) ) size_t ;
template < class _E >
class initializer_list
{
const _E * __begin_ ;
size_t __size_ ;
constexpr initializer_list ( const _E * __b , size_t __s )
: __begin_ ( __b ) ,
__size_ ( __s )
{ }
public :
typedef _E value_type ;
typedef const _E & reference ;
typedef const _E & const_reference ;
typedef size_t size_type ;
typedef const _E * iterator ;
typedef const _E * const_iterator ;
constexpr initializer_list ( ) : __begin_ ( nullptr ) , __size_ ( 0 ) { }
constexpr size_t size ( ) const { return __size_ ; }
constexpr const _E * begin ( ) const { return __begin_ ; }
constexpr const _E * end ( ) const { return __begin_ + __size_ ; }
} ;
}
namespace InitializerList {
constexpr int sum ( const int * b , const int * e ) {
return b ! = e ? * b + sum ( b + 1 , e ) : 0 ;
}
constexpr int sum ( std : : initializer_list < int > ints ) {
return sum ( ints . begin ( ) , ints . end ( ) ) ;
}
static_assert ( sum ( { 1 , 2 , 3 , 4 , 5 } ) = = 15 , " " ) ;
}
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namespace StmtExpr {
struct A { int k ; } ;
void f ( ) {
static_assert ( ( { const int x = 5 ; x * 3 ; } ) = = 15 , " " ) ; // expected-warning {{extension}}
constexpr auto a = ( { A ( ) ; } ) ; // expected-warning {{extension}}
}
constexpr int g ( int k ) {
return ( { // expected-warning {{extension}}
const int x = k ;
x * x ;
} ) ;
}
static_assert ( g ( 123 ) = = 15129 , " " ) ;
constexpr int h ( ) { // expected-error {{never produces a constant}}
return ( { // expected-warning {{extension}}
return 0 ; // expected-note {{not supported}}
1 ;
} ) ;
}
}
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namespace VirtualFromBase {
struct S1 {
virtual int f ( ) const ;
} ;
struct S2 {
virtual int f ( ) ;
} ;
template < typename T > struct X : T {
constexpr X ( ) { }
double d = 0.0 ;
constexpr int f ( ) { return sizeof ( T ) ; } // expected-warning {{will not be implicitly 'const' in C++1y}}
} ;
// Virtual f(), not OK.
constexpr X < X < S1 > > xxs1 ;
constexpr X < S1 > * p = const_cast < X < X < S1 > > * > ( & xxs1 ) ;
static_assert ( p - > f ( ) = = sizeof ( X < S1 > ) , " " ) ; // expected-error {{constant expression}} expected-note {{virtual function call}}
// Non-virtual f(), OK.
constexpr X < X < S2 > > xxs2 ;
constexpr X < S2 > * q = const_cast < X < X < S2 > > * > ( & xxs2 ) ;
static_assert ( q - > f ( ) = = sizeof ( S2 ) , " " ) ;
}
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namespace ConstexprConstructorRecovery {
class X {
public :
enum E : short {
headers = 0x1 ,
middlefile = 0x2 ,
choices = 0x4
} ;
constexpr X ( ) noexcept { } ;
protected :
E val { 0 } ; // expected-error {{cannot initialize a member subobject of type 'ConstexprConstructorRecovery::X::E' with an rvalue of type 'int'}}
} ;
constexpr X x { } ;
}
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namespace Lifetime {
void f ( ) {
constexpr int & n = n ; // expected-error {{constant expression}} expected-note {{use of reference outside its lifetime}} expected-warning {{not yet bound to a value}}
constexpr int m = m ; // expected-error {{constant expression}} expected-note {{read of object outside its lifetime}}
}
constexpr int & get ( int & & n ) { return n ; }
struct S {
int & & r ; // expected-note 2{{declared here}}
int & s ;
int t ;
constexpr S ( ) : r ( 0 ) , s ( get ( 0 ) ) , t ( r ) { } // expected-warning {{temporary}}
constexpr S ( int ) : r ( 0 ) , s ( get ( 0 ) ) , t ( s ) { } // expected-warning {{temporary}} expected-note {{read of object outside its lifetime}}
} ;
constexpr int k1 = S ( ) . t ; // ok, int is lifetime-extended to end of constructor
constexpr int k2 = S ( 0 ) . t ; // expected-error {{constant expression}} expected-note {{in call}}
}
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namespace Bitfields {
struct A {
bool b : 1 ;
unsigned u : 5 ;
int n : 5 ;
bool b2 : 3 ;
unsigned u2 : 74 ; // expected-warning {{exceeds the size of its type}}
int n2 : 81 ; // expected-warning {{exceeds the size of its type}}
} ;
constexpr A a = { false , 33 , 31 , false , 0xffffffff , 0x7fffffff } ; // expected-warning 2{{truncation}}
static_assert ( a . b = = 0 & & a . u = = 1 & & a . n = = - 1 & & a . b2 = = 0 & &
a . u2 + 1 = = 0 & & a . n2 = = 0x7fffffff ,
" bad truncation of bitfield values " ) ;
struct B {
int n : 3 ;
constexpr B ( int k ) : n ( k ) { }
} ;
static_assert ( B ( 3 ) . n = = 3 , " " ) ;
static_assert ( B ( 4 ) . n = = - 4 , " " ) ;
static_assert ( B ( 7 ) . n = = - 1 , " " ) ;
static_assert ( B ( 8 ) . n = = 0 , " " ) ;
static_assert ( B ( - 1 ) . n = = - 1 , " " ) ;
static_assert ( B ( - 8889 ) . n = = - 1 , " " ) ;
namespace PR16755 {
struct X {
int x : 1 ;
constexpr static int f ( int x ) {
return X { x } . x ;
}
} ;
static_assert ( X : : f ( 3 ) = = - 1 , " 3 should truncate to -1 " ) ;
}
}
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namespace ZeroSizeTypes {
constexpr int ( * p1 ) [ 0 ] = 0 , ( * p2 ) [ 0 ] = 0 ;
constexpr int k = p2 - p1 ;
// expected-error@-1 {{constexpr variable 'k' must be initialized by a constant expression}}
// expected-note@-2 {{subtraction of pointers to type 'int [0]' of zero size}}
int arr [ 5 ] [ 0 ] ;
constexpr int f ( ) { // expected-error {{never produces a constant expression}}
return & arr [ 3 ] - & arr [ 0 ] ; // expected-note {{subtraction of pointers to type 'int [0]' of zero size}}
}
}
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namespace BadDefaultInit {
template < int N > struct X { static const int n = N ; } ;
struct A { // expected-note {{subexpression}}
int k = X < A ( ) . k > : : n ; // expected-error {{defaulted default constructor of 'A' cannot be used}} expected-error {{not a constant expression}} expected-note {{in call to 'A()'}}
} ;
// FIXME: The "constexpr constructor must initialize all members" diagnostic
// here is bogus (we discard the k(k) initializer because the parameter 'k'
// has been marked invalid).
struct B { // expected-note 2{{candidate}}
constexpr B ( // expected-error {{must initialize all members}} expected-note {{candidate}}
int k = X < B ( ) . k > : : n ) : // expected-error {{no matching constructor}}
k ( k ) { }
int k ; // expected-note {{not initialized}}
} ;
}