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// RUN: %clang_cc1 -std=c++1y -verify %s -fcxx-exceptions -triple=x86_64-linux-gnu
struct S {
// dummy ctor to make this a literal type
constexpr S ( int ) ;
S ( ) ;
int arr [ 10 ] ;
constexpr int & get ( int n ) { return arr [ n ] ; }
constexpr const int & get ( int n ) const { return arr [ n ] ; }
} ;
S s = S ( ) ;
const S & sr = s ;
static_assert ( & s . get ( 4 ) - & sr . get ( 2 ) = = 2 , " " ) ;
// Compound-statements can be used in constexpr functions.
constexpr int e ( ) { { { { } } return 5 ; } }
static_assert ( e ( ) = = 5 , " " ) ;
// Types can be defined in constexpr functions.
constexpr int f ( ) {
enum E { e1 , e2 , e3 } ;
struct S {
constexpr S ( E e ) : e ( e ) { }
constexpr int get ( ) { return e ; }
E e ;
} ;
return S ( e2 ) . get ( ) ;
}
static_assert ( f ( ) = = 1 , " " ) ;
// Variables can be declared in constexpr functions.
constexpr int g ( int k ) {
const int n = 9 ;
int k2 = k * k ;
int k3 = k2 * k ;
return 3 * k3 + 5 * k2 + n * k - 20 ;
}
static_assert ( g ( 2 ) = = 42 , " " ) ;
constexpr int h ( int n ) {
static const int m = n ; // expected-error {{static variable not permitted in a constexpr function}}
return m ;
}
constexpr int i ( int n ) {
thread_local const int m = n ; // expected-error {{thread_local variable not permitted in a constexpr function}}
return m ;
}
// if-statements can be used in constexpr functions.
constexpr int j ( int k ) {
if ( k = = 5 )
return 1 ;
if ( k = = 1 )
return 5 ;
else {
if ( int n = 2 * k - 4 ) {
return n + 1 ;
return 2 ;
}
}
} // expected-note 2{{control reached end of constexpr function}}
static_assert ( j ( 0 ) = = - 3 , " " ) ;
static_assert ( j ( 1 ) = = 5 , " " ) ;
static_assert ( j ( 2 ) , " " ) ; // expected-error {{constant expression}} expected-note {{in call to 'j(2)'}}
static_assert ( j ( 3 ) = = 3 , " " ) ;
static_assert ( j ( 4 ) = = 5 , " " ) ;
static_assert ( j ( 5 ) = = 1 , " " ) ;
// There can be 0 return-statements.
constexpr void k ( ) {
}
// If the return type is not 'void', no return statements => never a constant
// expression, so still diagnose that case.
[[noreturn]] constexpr int fn ( ) { // expected-error {{no return statement in constexpr function}}
fn ( ) ;
}
// We evaluate the body of a constexpr constructor, to check for side-effects.
struct U {
constexpr U ( int n ) {
if ( j ( n ) ) { } // expected-note {{in call to 'j(2)'}}
}
} ;
constexpr U u1 { 1 } ;
constexpr U u2 { 2 } ; // expected-error {{constant expression}} expected-note {{in call to 'U(2)'}}
// We allow expression-statements.
constexpr int l ( bool b ) {
if ( b )
throw " invalid value for b! " ; // expected-note {{subexpression not valid}}
return 5 ;
}
static_assert ( l ( false ) = = 5 , " " ) ;
static_assert ( l ( true ) , " " ) ; // expected-error {{constant expression}} expected-note {{in call to 'l(true)'}}
// Potential constant expression checking is still applied where possible.
constexpr int htonl ( int x ) { // expected-error {{never produces a constant expression}}
typedef unsigned char uchar ;
uchar arr [ 4 ] = { uchar ( x > > 24 ) , uchar ( x > > 16 ) , uchar ( x > > 8 ) , uchar ( x ) } ;
return * reinterpret_cast < int * > ( arr ) ; // expected-note {{reinterpret_cast is not allowed in a constant expression}}
}
constexpr int maybe_htonl ( bool isBigEndian , int x ) {
if ( isBigEndian )
return x ;
typedef unsigned char uchar ;
uchar arr [ 4 ] = { uchar ( x > > 24 ) , uchar ( x > > 16 ) , uchar ( x > > 8 ) , uchar ( x ) } ;
return * reinterpret_cast < int * > ( arr ) ; // expected-note {{reinterpret_cast is not allowed in a constant expression}}
}
constexpr int swapped = maybe_htonl ( false , 123 ) ; // expected-error {{constant expression}} expected-note {{in call}}
namespace NS {
constexpr int n = 0 ;
}
constexpr int namespace_alias ( ) {
namespace N = NS ;
return N : : n ;
}
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namespace assign {
constexpr int a = 0 ;
const int b = 0 ;
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int c = 0 ; // expected-note {{here}}
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constexpr void set ( const int & a , int b ) {
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const_cast < int & > ( a ) = b ; // expected-note 3{{constant expression cannot modify an object that is visible outside that expression}}
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}
constexpr int wrap ( int a , int b ) {
set ( a , b ) ;
return a ;
}
static_assert ( ( set ( a , 1 ) , a ) = = 1 , " " ) ; // expected-error {{constant expression}} expected-note {{in call to 'set(a, 1)'}}
static_assert ( ( set ( b , 1 ) , b ) = = 1 , " " ) ; // expected-error {{constant expression}} expected-note {{in call to 'set(b, 1)'}}
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static_assert ( ( set ( c , 1 ) , c ) = = 1 , " " ) ; // expected-error {{constant expression}} expected-note {{in call to 'set(c, 1)'}}
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static_assert ( wrap ( a , 1 ) = = 1 , " " ) ;
static_assert ( wrap ( b , 1 ) = = 1 , " " ) ;
static_assert ( wrap ( c , 1 ) = = 1 , " " ) ; // expected-error {{constant expression}} expected-note {{read of non-const variable 'c'}}
}
namespace string_assign {
template < typename T >
constexpr void swap ( T & a , T & b ) {
T tmp = a ;
a = b ;
b = tmp ;
}
template < typename Iterator >
constexpr void reverse ( Iterator begin , Iterator end ) {
while ( begin ! = end & & begin ! = - - end )
swap ( * begin + + , * end ) ;
}
template < typename Iterator1 , typename Iterator2 >
constexpr bool equal ( Iterator1 a , Iterator1 ae , Iterator2 b , Iterator2 be ) {
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while ( a ! = ae & & b ! = be )
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if ( * a + + ! = * b + + )
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return false ;
return a = = ae & & b = = be ;
}
constexpr bool test1 ( int n ) {
char stuff [ 100 ] = " foobarfoo " ;
const char stuff2 [ 100 ] = " oofraboof " ;
reverse ( stuff , stuff + n ) ; // expected-note {{cannot refer to element 101 of array of 100 elements}}
return equal ( stuff , stuff + n , stuff2 , stuff2 + n ) ;
}
static_assert ( ! test1 ( 1 ) , " " ) ;
static_assert ( test1 ( 3 ) , " " ) ;
static_assert ( ! test1 ( 6 ) , " " ) ;
static_assert ( test1 ( 9 ) , " " ) ;
static_assert ( ! test1 ( 100 ) , " " ) ;
static_assert ( ! test1 ( 101 ) , " " ) ; // expected-error {{constant expression}} expected-note {{in call to 'test1(101)'}}
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constexpr void f ( ) { // expected-error{{constexpr function never produces a constant expression}} expected-note@+2{{assignment to dereferenced one-past-the-end pointer is not allowed in a constant expression}}
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char foo [ 10 ] = { " z " } ; // expected-note {{here}}
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foo [ 10 ] = ' x ' ; // expected-warning {{past the end}}
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}
}
namespace array_resize {
constexpr int do_stuff ( int k1 , int k2 ) {
int arr [ 1234 ] = { 1 , 2 , 3 , 4 } ;
arr [ k1 ] = 5 ; // expected-note {{past-the-end}} expected-note {{cannot refer to element 1235}} expected-note {{cannot refer to element -1}}
return arr [ k2 ] ;
}
static_assert ( do_stuff ( 1 , 2 ) = = 3 , " " ) ;
static_assert ( do_stuff ( 0 , 0 ) = = 5 , " " ) ;
static_assert ( do_stuff ( 1233 , 1233 ) = = 5 , " " ) ;
static_assert ( do_stuff ( 1233 , 0 ) = = 1 , " " ) ;
static_assert ( do_stuff ( 1234 , 0 ) = = 1 , " " ) ; // expected-error {{constant expression}} expected-note {{in call}}
static_assert ( do_stuff ( 1235 , 0 ) = = 1 , " " ) ; // expected-error {{constant expression}} expected-note {{in call}}
static_assert ( do_stuff ( - 1 , 0 ) = = 1 , " " ) ; // expected-error {{constant expression}} expected-note {{in call}}
}
namespace potential_const_expr {
constexpr void set ( int & n ) { n = 1 ; }
constexpr int div_zero_1 ( ) { int z = 0 ; set ( z ) ; return 100 / z ; } // no error
constexpr int div_zero_2 ( ) { // expected-error {{never produces a constant expression}}
int z = 0 ;
return 100 / ( set ( z ) , 0 ) ; // expected-note {{division by zero}}
}
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int n ; // expected-note {{declared here}}
constexpr int ref ( ) { // expected-error {{never produces a constant expression}}
int & r = n ;
return r ; // expected-note {{read of non-const variable 'n'}}
}
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}
namespace subobject {
union A { constexpr A ( ) : y ( 5 ) { } int x , y ; } ;
struct B { A a ; } ;
struct C : B { } ;
union D { constexpr D ( ) : c ( ) { } constexpr D ( int n ) : n ( n ) { } C c ; int n ; } ;
constexpr void f ( D & d ) {
d . c . a . y = 3 ;
// expected-note@-1 {{cannot modify an object that is visible outside}}
// expected-note@-2 {{assignment to member 'c' of union with active member 'n'}}
}
constexpr bool check ( D & d ) { return d . c . a . y = = 3 ; }
constexpr bool g ( ) { D d ; f ( d ) ; return d . c . a . y = = 3 ; }
static_assert ( g ( ) , " " ) ;
D d ;
constexpr bool h ( ) { f ( d ) ; return check ( d ) ; } // expected-note {{in call}}
static_assert ( h ( ) , " " ) ; // expected-error {{constant expression}} expected-note {{in call}}
constexpr bool i ( ) { D d ( 0 ) ; f ( d ) ; return check ( d ) ; } // expected-note {{in call}}
static_assert ( i ( ) , " " ) ; // expected-error {{constant expression}} expected-note {{in call}}
constexpr bool j ( ) { D d ; d . c . a . x = 3 ; return check ( d ) ; } // expected-note {{assignment to member 'x' of union with active member 'y'}}
static_assert ( j ( ) , " " ) ; // expected-error {{constant expression}} expected-note {{in call}}
}
namespace lifetime {
constexpr int & & id ( int & & n ) { return static_cast < int & & > ( n ) ; }
constexpr int & & dead ( ) { return id ( 0 ) ; } // expected-note {{temporary created here}}
constexpr int bad ( ) { int & & n = dead ( ) ; n = 1 ; return n ; } // expected-note {{assignment to temporary whose lifetime has ended}}
static_assert ( bad ( ) , " " ) ; // expected-error {{constant expression}} expected-note {{in call}}
}
namespace const_modify {
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constexpr int modify ( int & n ) { return n = 1 ; } // expected-note 2 {{modification of object of const-qualified type 'const int'}}
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constexpr int test1 ( ) { int k = 0 ; return modify ( k ) ; }
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constexpr int test2 ( ) { const int k = 0 ; return modify ( const_cast < int & > ( k ) ) ; } // expected-note 2 {{in call}}
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static_assert ( test1 ( ) = = 1 , " " ) ;
static_assert ( test2 ( ) = = 1 , " " ) ; // expected-error {{constant expression}} expected-note {{in call}}
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constexpr int i = test2 ( ) ; // expected-error {{constant expression}} expected-note {{in call}}
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}
namespace null {
constexpr int test ( int * p ) {
return * p = 123 ; // expected-note {{assignment to dereferenced null pointer}}
}
static_assert ( test ( 0 ) , " " ) ; // expected-error {{constant expression}} expected-note {{in call}}
}
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namespace incdec {
template < typename T > constexpr T & ref ( T & & r ) { return r ; }
template < typename T > constexpr T postinc ( T & & r ) { return ( r + + , r ) ; }
template < typename T > constexpr T postdec ( T & & r ) { return ( r - - , r ) ; }
static_assert ( + + ref ( 0 ) = = 1 , " " ) ;
static_assert ( ref ( 0 ) + + = = 0 , " " ) ;
static_assert ( postinc ( 0 ) = = 1 , " " ) ;
static_assert ( - - ref ( 0 ) = = - 1 , " " ) ;
static_assert ( ref ( 0 ) - - = = 0 , " " ) ;
static_assert ( postdec ( 0 ) = = - 1 , " " ) ;
constexpr int overflow_int_inc_1 = ref ( 0x7fffffff ) + + ; // expected-error {{constant}} expected-note {{2147483648}}
constexpr int overflow_int_inc_1_ok = ref ( 0x7ffffffe ) + + ;
constexpr int overflow_int_inc_2 = + + ref ( 0x7fffffff ) ; // expected-error {{constant}} expected-note {{2147483648}}
constexpr int overflow_int_inc_2_ok = + + ref ( 0x7ffffffe ) ;
// inc/dec on short can't overflow because we promote to int first
static_assert ( + + ref < short > ( 0x7fff ) = = ( int ) 0xffff8000u , " " ) ;
static_assert ( - - ref < short > ( 0x8000 ) = = 0x7fff , " " ) ;
// inc on bool sets to true
static_assert ( + + ref ( false ) , " " ) ; // expected-warning {{deprecated}}
static_assert ( + + ref ( true ) , " " ) ; // expected-warning {{deprecated}}
int arr [ 10 ] ;
static_assert ( + + ref ( & arr [ 0 ] ) = = & arr [ 1 ] , " " ) ;
static_assert ( + + ref ( & arr [ 9 ] ) = = & arr [ 10 ] , " " ) ;
static_assert ( + + ref ( & arr [ 10 ] ) = = & arr [ 11 ] , " " ) ; // expected-error {{constant}} expected-note {{cannot refer to element 11}}
static_assert ( ref ( & arr [ 0 ] ) + + = = & arr [ 0 ] , " " ) ;
static_assert ( ref ( & arr [ 10 ] ) + + = = & arr [ 10 ] , " " ) ; // expected-error {{constant}} expected-note {{cannot refer to element 11}}
static_assert ( postinc ( & arr [ 0 ] ) = = & arr [ 1 ] , " " ) ;
static_assert ( - - ref ( & arr [ 10 ] ) = = & arr [ 9 ] , " " ) ;
static_assert ( - - ref ( & arr [ 1 ] ) = = & arr [ 0 ] , " " ) ;
static_assert ( - - ref ( & arr [ 0 ] ) ! = & arr [ 0 ] , " " ) ; // expected-error {{constant}} expected-note {{cannot refer to element -1}}
static_assert ( ref ( & arr [ 1 ] ) - - = = & arr [ 1 ] , " " ) ;
static_assert ( ref ( & arr [ 0 ] ) - - = = & arr [ 0 ] , " " ) ; // expected-error {{constant}} expected-note {{cannot refer to element -1}}
static_assert ( postdec ( & arr [ 1 ] ) = = & arr [ 0 ] , " " ) ;
int x ;
static_assert ( + + ref ( & x ) = = & x + 1 , " " ) ;
static_assert ( + + ref ( 0.0 ) = = 1.0 , " " ) ;
static_assert ( ref ( 0.0 ) + + = = 0.0 , " " ) ;
static_assert ( postinc ( 0.0 ) = = 1.0 , " " ) ;
static_assert ( - - ref ( 0.0 ) = = - 1.0 , " " ) ;
static_assert ( ref ( 0.0 ) - - = = 0.0 , " " ) ;
static_assert ( postdec ( 0.0 ) = = - 1.0 , " " ) ;
static_assert ( + + ref ( 1e100 ) = = 1e100 , " " ) ;
static_assert ( - - ref ( 1e100 ) = = 1e100 , " " ) ;
union U {
int a , b ;
} ;
constexpr int f ( U u ) {
return + + u . b ; // expected-note {{increment of member 'b' of union with active member 'a'}}
}
constexpr int wrong_member = f ( { 0 } ) ; // expected-error {{constant}} expected-note {{in call to 'f({.a = 0})'}}
constexpr int vol = - - ref < volatile int > ( 0 ) ; // expected-error {{constant}} expected-note {{decrement of volatile-qualified}}
constexpr int incr ( int k ) {
int x = k ;
if ( x + + = = 100 )
return x ;
return incr ( x ) ;
}
static_assert ( incr ( 0 ) = = 101 , " " ) ;
}
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namespace compound_assign {
constexpr bool test_int ( ) {
int a = 3 ;
a + = 6 ;
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if ( a ! = 9 ) return false ;
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a - = 2 ;
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if ( a ! = 7 ) return false ;
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a * = 3 ;
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if ( a ! = 21 ) return false ;
if ( & ( a / = 10 ) ! = & a ) return false ;
if ( a ! = 2 ) return false ;
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a < < = 3 ;
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if ( a ! = 16 ) return false ;
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a % = 6 ;
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if ( a ! = 4 ) return false ;
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a > > = 1 ;
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if ( a ! = 2 ) return false ;
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a ^ = 10 ;
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if ( a ! = 8 ) return false ;
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a | = 5 ;
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if ( a ! = 13 ) return false ;
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a & = 14 ;
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if ( a ! = 12 ) return false ;
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return true ;
}
static_assert ( test_int ( ) , " " ) ;
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constexpr bool test_float ( ) {
float f = 123. ;
f * = 2 ;
if ( f ! = 246. ) return false ;
if ( ( f - = 0.5 ) ! = 245.5 ) return false ;
if ( f ! = 245.5 ) return false ;
f / = 0.5 ;
if ( f ! = 491. ) return false ;
f + = - 40 ;
if ( f ! = 451. ) return false ;
return true ;
}
static_assert ( test_float ( ) , " " ) ;
constexpr bool test_ptr ( ) {
int arr [ 123 ] = { } ;
int * p = arr ;
if ( ( p + = 4 ) ! = & arr [ 4 ] ) return false ;
if ( p ! = & arr [ 4 ] ) return false ;
p + = - 1 ;
if ( p ! = & arr [ 3 ] ) return false ;
if ( ( p - = - 10 ) ! = & arr [ 13 ] ) return false ;
if ( p ! = & arr [ 13 ] ) return false ;
p - = 11 ;
if ( p ! = & arr [ 2 ] ) return false ;
return true ;
}
static_assert ( test_ptr ( ) , " " ) ;
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template < typename T >
constexpr bool test_overflow ( ) {
T a = 1 ;
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while ( a ! = a / 2 )
a * = 2 ; // expected-note {{value 2147483648 is outside the range}} expected-note {{ 9223372036854775808 }} expected-note {{floating point arithmetic produces an infinity}}
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return true ;
}
static_assert ( test_overflow < int > ( ) , " " ) ; // expected-error {{constant}} expected-note {{call}}
static_assert ( test_overflow < unsigned > ( ) , " " ) ; // ok, unsigned overflow is defined
static_assert ( test_overflow < short > ( ) , " " ) ; // ok, short is promoted to int before multiplication
static_assert ( test_overflow < unsigned short > ( ) , " " ) ; // ok
static_assert ( test_overflow < unsigned long long > ( ) , " " ) ; // ok
static_assert ( test_overflow < long long > ( ) , " " ) ; // expected-error {{constant}} expected-note {{call}}
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static_assert ( test_overflow < float > ( ) , " " ) ; // expected-error {{constant}} expected-note {{call}}
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constexpr short test_promotion ( short k ) {
short s = k ;
s * = s ;
return s ;
}
static_assert ( test_promotion ( 100 ) = = 10000 , " " ) ;
static_assert ( test_promotion ( 200 ) = = - 25536 , " " ) ;
static_assert ( test_promotion ( 256 ) = = 0 , " " ) ;
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constexpr const char * test_bounds ( const char * p , int o ) {
return p + = o ; // expected-note {{element 5 of}} expected-note {{element -1 of}} expected-note {{element 1000 of}}
}
static_assert ( test_bounds ( " foo " , 0 ) [ 0 ] = = ' f ' , " " ) ;
static_assert ( test_bounds ( " foo " , 3 ) [ 0 ] = = 0 , " " ) ;
static_assert ( test_bounds ( " foo " , 4 ) [ - 3 ] = = ' o ' , " " ) ;
static_assert ( test_bounds ( " foo " + 4 , - 4 ) [ 0 ] = = ' f ' , " " ) ;
static_assert ( test_bounds ( " foo " , 5 ) ! = 0 , " " ) ; // expected-error {{constant}} expected-note {{call}}
static_assert ( test_bounds ( " foo " , - 1 ) ! = 0 , " " ) ; // expected-error {{constant}} expected-note {{call}}
static_assert ( test_bounds ( " foo " , 1000 ) ! = 0 , " " ) ; // expected-error {{constant}} expected-note {{call}}
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}
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namespace loops {
constexpr int fib_loop ( int a ) {
int f_k = 0 , f_k_plus_one = 1 ;
for ( int k = 1 ; k ! = a ; + + k ) {
int f_k_plus_two = f_k + f_k_plus_one ;
f_k = f_k_plus_one ;
f_k_plus_one = f_k_plus_two ;
}
return f_k_plus_one ;
}
static_assert ( fib_loop ( 46 ) = = 1836311903 , " " ) ;
constexpr bool breaks_work ( ) {
int a = 0 ;
for ( int n = 0 ; n ! = 100 ; + + n ) {
+ + a ;
if ( a = = 5 ) continue ;
if ( ( a % 5 ) = = 0 ) break ;
}
int b = 0 ;
while ( b ! = 17 ) {
+ + b ;
if ( b = = 6 ) continue ;
if ( ( b % 6 ) = = 0 ) break ;
}
int c = 0 ;
do {
+ + c ;
if ( c = = 7 ) continue ;
if ( ( c % 7 ) = = 0 ) break ;
} while ( c ! = 21 ) ;
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return a = = 10 & & b = = 12 & & c = = 14 ;
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}
static_assert ( breaks_work ( ) , " " ) ;
void not_constexpr ( ) ;
constexpr bool no_cont_after_break ( ) {
for ( ; ; ) {
break ;
not_constexpr ( ) ;
}
while ( true ) {
break ;
not_constexpr ( ) ;
}
do {
break ;
not_constexpr ( ) ;
} while ( true ) ;
return true ;
}
static_assert ( no_cont_after_break ( ) , " " ) ;
constexpr bool cond ( ) {
for ( int a = 1 ; bool b = a ! = 3 ; + + a ) {
if ( ! b )
return false ;
}
while ( bool b = true ) {
b = false ;
break ;
}
return true ;
}
static_assert ( cond ( ) , " " ) ;
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constexpr int range_for ( ) {
int arr [ ] = { 1 , 2 , 3 , 4 , 5 } ;
int sum = 0 ;
for ( int x : arr )
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sum + = x ;
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return sum ;
}
static_assert ( range_for ( ) = = 15 , " " ) ;
template < int . . . N > struct ints { } ;
template < typename A , typename B > struct join_ints ;
template < int . . . As , int . . . Bs > struct join_ints < ints < As . . . > , ints < Bs . . . > > {
using type = ints < As . . . , sizeof . . . ( As ) + Bs . . . > ;
} ;
template < unsigned N > struct make_ints {
using type = typename join_ints < typename make_ints < N / 2 > : : type , typename make_ints < ( N + 1 ) / 2 > : : type > : : type ;
} ;
template < > struct make_ints < 0 > { using type = ints < > ; } ;
template < > struct make_ints < 1 > { using type = ints < 0 > ; } ;
struct ignore { template < typename . . . Ts > constexpr ignore ( Ts & & . . . ) { } } ;
template < typename T , unsigned N > struct array {
constexpr array ( ) : arr { } { }
template < typename . . . X >
constexpr array ( X . . . x ) : arr { } {
init ( typename make_ints < sizeof . . . ( X ) > : : type { } , x . . . ) ;
}
template < int . . . I , typename . . . X > constexpr void init ( ints < I . . . > , X . . . x ) {
ignore { arr [ I ] = x . . . } ;
}
T arr [ N ] ;
struct iterator {
T * p ;
constexpr explicit iterator ( T * p ) : p ( p ) { }
constexpr bool operator ! = ( iterator o ) { return p ! = o . p ; }
constexpr iterator & operator + + ( ) { + + p ; return * this ; }
constexpr T & operator * ( ) { return * p ; }
} ;
constexpr iterator begin ( ) { return iterator ( arr ) ; }
constexpr iterator end ( ) { return iterator ( arr + N ) ; }
} ;
constexpr int range_for_2 ( ) {
array < int , 5 > arr { 1 , 2 , 3 , 4 , 5 } ;
int sum = 0 ;
for ( int k : arr ) {
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sum + = k ;
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if ( sum > 8 ) break ;
}
return sum ;
}
static_assert ( range_for_2 ( ) = = 10 , " " ) ;
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}
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namespace assignment_op {
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struct A {
constexpr A ( ) : n ( 5 ) { }
int n ;
struct B {
int k = 1 ;
union U {
constexpr U ( ) : y ( 4 ) { }
int x ;
int y ;
} u ;
} b ;
} ;
constexpr bool testA ( ) {
A a , b ;
a . n = 7 ;
a . b . u . y = 5 ;
b = a ;
return b . n = = 7 & & b . b . u . y = = 5 & & b . b . k = = 1 ;
}
static_assert ( testA ( ) , " " ) ;
struct B {
bool assigned = false ;
constexpr B & operator = ( const B & ) {
assigned = true ;
return * this ;
}
} ;
struct C : B {
B b ;
int n = 5 ;
} ;
constexpr bool testC ( ) {
C c , d ;
c . n = 7 ;
d = c ;
c . n = 3 ;
return d . n = = 7 & & d . assigned & & d . b . assigned ;
}
static_assert ( testC ( ) , " " ) ;
}
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namespace switch_stmt {
constexpr int f ( char k ) {
bool b = false ;
int z = 6 ;
switch ( k ) {
return - 1 ;
case 0 :
if ( false ) {
case 1 :
z = 1 ;
for ( ; b ; ) {
return 5 ;
while ( 0 )
case 2 : return 2 ;
case 7 : z = 7 ;
do case 6 : {
return z ;
if ( false )
case 3 : return 3 ;
case 4 : z = 4 ;
} while ( 1 ) ;
case 5 : b = true ;
case 9 : z = 9 ;
}
return z ;
} else if ( false ) case 8 : z = 8 ;
else if ( false ) {
case 10 :
z = - 10 ;
break ;
}
else z = 0 ;
return z ;
default :
return - 1 ;
}
return - z ;
}
static_assert ( f ( 0 ) = = 0 , " " ) ;
static_assert ( f ( 1 ) = = 1 , " " ) ;
static_assert ( f ( 2 ) = = 2 , " " ) ;
static_assert ( f ( 3 ) = = 3 , " " ) ;
static_assert ( f ( 4 ) = = 4 , " " ) ;
static_assert ( f ( 5 ) = = 5 , " " ) ;
static_assert ( f ( 6 ) = = 6 , " " ) ;
static_assert ( f ( 7 ) = = 7 , " " ) ;
static_assert ( f ( 8 ) = = 8 , " " ) ;
static_assert ( f ( 9 ) = = 9 , " " ) ;
static_assert ( f ( 10 ) = = 10 , " " ) ;
// Check that we can continue an outer loop from within a switch.
constexpr bool contin ( ) {
for ( int n = 0 ; n ! = 10 ; + + n ) {
switch ( n ) {
case 0 :
+ + n ;
continue ;
case 1 :
return false ;
case 2 :
return true ;
}
}
return false ;
}
static_assert ( contin ( ) , " " ) ;
constexpr bool switch_into_for ( ) {
int n = 0 ;
switch ( n ) {
for ( ; n = = 1 ; + + n ) {
return n = = 1 ;
case 0 : ;
}
}
return false ;
}
static_assert ( switch_into_for ( ) , " " ) ;
constexpr void duff_copy ( char * a , const char * b , int n ) {
switch ( ( n - 1 ) % 8 + 1 ) {
for ( ; n ; n = ( n - 1 ) & ~ 7 ) {
case 8 : a [ n - 8 ] = b [ n - 8 ] ;
case 7 : a [ n - 7 ] = b [ n - 7 ] ;
case 6 : a [ n - 6 ] = b [ n - 6 ] ;
case 5 : a [ n - 5 ] = b [ n - 5 ] ;
case 4 : a [ n - 4 ] = b [ n - 4 ] ;
case 3 : a [ n - 3 ] = b [ n - 3 ] ;
case 2 : a [ n - 2 ] = b [ n - 2 ] ;
case 1 : a [ n - 1 ] = b [ n - 1 ] ;
}
case 0 : ;
}
}
constexpr bool test_copy ( const char * str , int n ) {
char buffer [ 16 ] = { } ;
duff_copy ( buffer , str , n ) ;
for ( int i = 0 ; i ! = sizeof ( buffer ) ; + + i )
if ( buffer [ i ] ! = ( i < n ? str [ i ] : 0 ) )
return false ;
return true ;
}
static_assert ( test_copy ( " foo " , 0 ) , " " ) ;
static_assert ( test_copy ( " foo " , 1 ) , " " ) ;
static_assert ( test_copy ( " foo " , 2 ) , " " ) ;
static_assert ( test_copy ( " hello world " , 0 ) , " " ) ;
static_assert ( test_copy ( " hello world " , 7 ) , " " ) ;
static_assert ( test_copy ( " hello world " , 8 ) , " " ) ;
static_assert ( test_copy ( " hello world " , 9 ) , " " ) ;
static_assert ( test_copy ( " hello world " , 10 ) , " " ) ;
static_assert ( test_copy ( " hello world " , 10 ) , " " ) ;
}
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namespace deduced_return_type {
constexpr auto f ( ) { return 0 ; }
template < typename T > constexpr auto g ( T t ) { return t ; }
static_assert ( f ( ) = = 0 , " " ) ;
static_assert ( g ( true ) , " " ) ;
}
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namespace modify_temporary_during_construction {
struct A { int & & temporary ; int x ; int y ; } ;
constexpr int f ( int & r ) { r * = 9 ; return r - 12 ; }
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constexpr A a = { 6 , f ( a . temporary ) , a . temporary } ; // expected-note {{temporary created here}}
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static_assert ( a . x = = 42 , " " ) ;
static_assert ( a . y = = 54 , " " ) ;
constexpr int k = a . temporary + + ; // expected-error {{constant expression}} expected-note {{outside the expression that created the temporary}}
}
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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 ( std : : initializer_list < int > ints ) {
int total = 0 ;
for ( int n : ints ) total + = n ;
return total ;
}
static_assert ( sum ( { 1 , 2 , 3 , 4 , 5 } ) = = 15 , " " ) ;
}
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namespace StmtExpr {
constexpr int f ( int k ) {
switch ( k ) {
case 0 :
return 0 ;
( {
case 1 : // expected-note {{not supported}}
return 1 ;
} ) ;
}
}
static_assert ( f ( 1 ) = = 1 , " " ) ; // expected-error {{constant expression}} expected-note {{in call}}
constexpr int g ( ) { // expected-error {{never produces a constant}}
return ( { int n ; n ; } ) ; // expected-note {{object of type 'int' is not initialized}}
}
// FIXME: We should handle the void statement expression case.
constexpr int h ( ) { // expected-error {{never produces a constant}}
( { if ( true ) { } } ) ; // expected-note {{not supported}}
return 0 ;
}
}
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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 ) ; }
} ;
// Non-virtual f(), OK.
constexpr X < X < S1 > > xxs1 ;
constexpr X < S1 > * p = const_cast < X < X < S1 > > * > ( & xxs1 ) ;
static_assert ( p - > f ( ) = = sizeof ( S1 ) , " " ) ;
// Virtual f(), not OK.
constexpr X < X < S2 > > xxs2 ;
constexpr X < S2 > * q = const_cast < X < X < S2 > > * > ( & xxs2 ) ;
static_assert ( q - > f ( ) = = sizeof ( X < S2 > ) , " " ) ; // expected-error {{constant expression}} expected-note {{virtual function call}}
}
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namespace Lifetime {
constexpr int & get ( int & & r ) { return r ; }
constexpr int f ( ) {
int & r = get ( 123 ) ;
return r ; // expected-note {{read of object outside its lifetime}}
}
static_assert ( f ( ) = = 123 , " " ) ; // expected-error {{constant expression}} expected-note {{in call}}
constexpr int g ( ) {
int * p = 0 ;
{
int n = 0 ;
p = & n ;
n = 42 ;
}
* p = 123 ; // expected-note {{assignment to object outside its lifetime}}
return * p ;
}
static_assert ( g ( ) = = 42 , " " ) ; // expected-error {{constant expression}} expected-note {{in call}}
constexpr int h ( int n ) {
int * p [ 4 ] = { } ;
int & & r = 1 ;
p [ 0 ] = & r ;
while ( int a = 1 ) {
p [ 1 ] = & a ;
for ( int b = 1 ; int c = 1 ; ) {
p [ 2 ] = & b , p [ 3 ] = & c ;
break ;
}
break ;
}
* p [ n ] = 0 ; // expected-note 3{{assignment to object outside its lifetime}}
return * p [ n ] ;
}
static_assert ( h ( 0 ) = = 0 , " " ) ; // ok, lifetime-extended
static_assert ( h ( 1 ) = = 0 , " " ) ; // expected-error {{constant expression}} expected-note {{in call}}
static_assert ( h ( 2 ) = = 0 , " " ) ; // expected-error {{constant expression}} expected-note {{in call}}
static_assert ( h ( 3 ) = = 0 , " " ) ; // expected-error {{constant expression}} expected-note {{in call}}
// FIXME: This function should be treated as non-constant.
constexpr void lifetime_versus_loops ( ) {
int * p = 0 ;
for ( int i = 0 ; i ! = 2 ; + + i ) {
int * q = p ;
int n = 0 ;
p = & n ;
if ( i )
// This modifies the 'n' from the previous iteration of the loop outside
// its lifetime.
+ + * q ;
}
}
static_assert ( ( lifetime_versus_loops ( ) , true ) , " " ) ;
}
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namespace Bitfields {
struct A {
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bool b : 1 ;
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int n : 4 ;
unsigned u : 5 ;
} ;
constexpr bool test ( ) {
A a { } ;
a . b + = 2 ;
- - a . n ;
- - a . u ;
a . n = - a . n * 3 ;
return a . b = = false & & a . n = = 3 & & a . u = = 31 ;
}
static_assert ( test ( ) , " " ) ;
}
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namespace PR17615 {
struct A {
int & & r ;
constexpr A ( int & & r ) : r ( static_cast < int & & > ( r ) ) { }
constexpr A ( ) : A ( 0 ) {
( void ) + r ; // expected-note {{outside its lifetime}}
}
} ;
constexpr int k = A ( ) . r ; // expected-error {{constant expression}} expected-note {{in call to}}
}
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namespace PR17331 {
template < typename T , unsigned int N >
constexpr T sum ( const T ( & arr ) [ N ] ) {
T result = 0 ;
for ( T i : arr )
result + = i ;
return result ;
}
constexpr int ARR [ ] = { 1 , 2 , 3 , 4 , 5 } ;
static_assert ( sum ( ARR ) = = 15 , " " ) ;
}
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namespace EmptyClass {
struct E1 { } e1 ;
union E2 { } e2 ; // expected-note 4{{here}}
struct E3 : E1 { } e3 ;
template < typename E >
constexpr int f ( E & a , int kind ) {
switch ( kind ) {
case 0 : { E e ( a ) ; return 0 ; } // expected-note {{read}} expected-note {{in call}}
case 1 : { E e ( static_cast < E & & > ( a ) ) ; return 0 ; } // expected-note {{read}} expected-note {{in call}}
case 2 : { E e ; e = a ; return 0 ; } // expected-note {{read}} expected-note {{in call}}
case 3 : { E e ; e = static_cast < E & & > ( a ) ; return 0 ; } // expected-note {{read}} expected-note {{in call}}
}
}
constexpr int test1 = f ( e1 , 0 ) ;
constexpr int test2 = f ( e2 , 0 ) ; // expected-error {{constant expression}} expected-note {{in call}}
constexpr int test3 = f ( e3 , 0 ) ;
constexpr int test4 = f ( e1 , 1 ) ;
constexpr int test5 = f ( e2 , 1 ) ; // expected-error {{constant expression}} expected-note {{in call}}
constexpr int test6 = f ( e3 , 1 ) ;
constexpr int test7 = f ( e1 , 2 ) ;
constexpr int test8 = f ( e2 , 2 ) ; // expected-error {{constant expression}} expected-note {{in call}}
constexpr int test9 = f ( e3 , 2 ) ;
constexpr int testa = f ( e1 , 3 ) ;
constexpr int testb = f ( e2 , 3 ) ; // expected-error {{constant expression}} expected-note {{in call}}
constexpr int testc = f ( e3 , 3 ) ;
}
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namespace SpeculativeEvalWrites {
// Ensure that we don't try to speculatively evaluate writes.
constexpr int f ( ) {
int i = 0 ;
int a = 0 ;
// __builtin_object_size speculatively evaluates its first argument.
__builtin_object_size ( ( i = 1 , & a ) , 0 ) ;
return i ;
}
static_assert ( ! f ( ) , " " ) ;
}
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namespace PR27989 {
constexpr int f ( int n ) {
int a = ( n = 1 , 0 ) ;
return n ;
}
static_assert ( f ( 0 ) = = 1 , " " ) ;
}
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namespace const_char {
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template < int N >
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constexpr int sum ( const char ( & Arr ) [ N ] ) {
int S = 0 ;
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for ( unsigned I = 0 ; I ! = N ; + + I )
S + = Arr [ I ] ; // expected-note 2{{read of non-constexpr variable 'Cs' is not allowed}}
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return S ;
}
// As an extension, we support evaluating some things that are `const` as though
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// they were `constexpr` when folding, but it should not be allowed in normal
// constexpr evaluation.
const char Cs [ ] = { ' a ' , ' b ' } ;
void foo ( ) __attribute__ ( ( enable_if ( sum ( Cs ) = = ' a ' + ' b ' , " " ) ) ) ;
void run ( ) { foo ( ) ; }
static_assert ( sum ( Cs ) = = ' a ' + ' b ' , " " ) ; // expected-error{{not an integral constant expression}} expected-note{{in call to 'sum(Cs)'}}
constexpr int S = sum ( Cs ) ; // expected-error{{must be initialized by a constant expression}} expected-note{{in call}}
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}
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constexpr void PR28739 ( int n ) { // expected-error {{never produces a constant}}
int * p = & n ;
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p + = ( __int128 ) ( unsigned long ) - 1 ; // expected-note {{cannot refer to element 18446744073709551615 of non-array object in a constant expression}}
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}
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constexpr void Void ( int n ) {
void ( n + 1 ) ;
void ( ) ;
}
constexpr int void_test = ( Void ( 0 ) , 1 ) ;