2017-12-14 23:16:18 +08:00
// RUN: %clang_cc1 -std=c++2a -verify %s -fcxx-exceptions -triple=x86_64-linux-gnu
[C++2a] Implement operator<=> CodeGen and ExprConstant
Summary:
This patch tackles long hanging fruit for the builtin operator<=> expressions. It is currently needs some cleanup before landing, but I want to get some initial feedback.
The main changes are:
* Lookup, build, and store the required standard library types and expressions in `ASTContext`. By storing them in ASTContext we don't need to store (and duplicate) the required expressions in the BinaryOperator AST nodes.
* Implement [expr.spaceship] checking, including diagnosing narrowing conversions.
* Implement `ExprConstant` for builtin spaceship operators.
* Implement builitin operator<=> support in `CodeGenAgg`. Initially I emitted the required comparisons using `ScalarExprEmitter::VisitBinaryOperator`, but this caused the operand expressions to be emitted once for every required cmp.
* Implement [builtin.over] with modifications to support the intent of P0946R0. See the note on `BuiltinOperatorOverloadBuilder::addThreeWayArithmeticOverloads` for more information about the workaround.
Reviewers: rsmith, aaron.ballman, majnemer, rnk, compnerd, rjmccall
Reviewed By: rjmccall
Subscribers: rjmccall, rsmith, aaron.ballman, junbuml, mgorny, cfe-commits
Differential Revision: https://reviews.llvm.org/D45476
llvm-svn: 331677
2018-05-08 05:07:10 +08:00
# include "Inputs/std-compare.h"
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namespace std {
struct type_info ;
} ;
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namespace ThreeWayComparison {
struct A {
int n ;
constexpr friend int operator < = > ( const A & a , const A & b ) {
return a . n < b . n ? - 1 : a . n > b . n ? 1 : 0 ;
}
} ;
static_assert ( A { 1 } < = > A { 2 } < 0 ) ;
static_assert ( A { 2 } < = > A { 1 } > 0 ) ;
static_assert ( A { 2 } < = > A { 2 } = = 0 ) ;
[C++2a] Implement operator<=> CodeGen and ExprConstant
Summary:
This patch tackles long hanging fruit for the builtin operator<=> expressions. It is currently needs some cleanup before landing, but I want to get some initial feedback.
The main changes are:
* Lookup, build, and store the required standard library types and expressions in `ASTContext`. By storing them in ASTContext we don't need to store (and duplicate) the required expressions in the BinaryOperator AST nodes.
* Implement [expr.spaceship] checking, including diagnosing narrowing conversions.
* Implement `ExprConstant` for builtin spaceship operators.
* Implement builitin operator<=> support in `CodeGenAgg`. Initially I emitted the required comparisons using `ScalarExprEmitter::VisitBinaryOperator`, but this caused the operand expressions to be emitted once for every required cmp.
* Implement [builtin.over] with modifications to support the intent of P0946R0. See the note on `BuiltinOperatorOverloadBuilder::addThreeWayArithmeticOverloads` for more information about the workaround.
Reviewers: rsmith, aaron.ballman, majnemer, rnk, compnerd, rjmccall
Reviewed By: rjmccall
Subscribers: rjmccall, rsmith, aaron.ballman, junbuml, mgorny, cfe-commits
Differential Revision: https://reviews.llvm.org/D45476
llvm-svn: 331677
2018-05-08 05:07:10 +08:00
static_assert ( 1 < = > 2 < 0 ) ;
static_assert ( 2 < = > 1 > 0 ) ;
static_assert ( 1 < = > 1 = = 0 ) ;
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constexpr int k = ( 1 < = > 1 , 0 ) ;
[C++2a] Implement operator<=> CodeGen and ExprConstant
Summary:
This patch tackles long hanging fruit for the builtin operator<=> expressions. It is currently needs some cleanup before landing, but I want to get some initial feedback.
The main changes are:
* Lookup, build, and store the required standard library types and expressions in `ASTContext`. By storing them in ASTContext we don't need to store (and duplicate) the required expressions in the BinaryOperator AST nodes.
* Implement [expr.spaceship] checking, including diagnosing narrowing conversions.
* Implement `ExprConstant` for builtin spaceship operators.
* Implement builitin operator<=> support in `CodeGenAgg`. Initially I emitted the required comparisons using `ScalarExprEmitter::VisitBinaryOperator`, but this caused the operand expressions to be emitted once for every required cmp.
* Implement [builtin.over] with modifications to support the intent of P0946R0. See the note on `BuiltinOperatorOverloadBuilder::addThreeWayArithmeticOverloads` for more information about the workaround.
Reviewers: rsmith, aaron.ballman, majnemer, rnk, compnerd, rjmccall
Reviewed By: rjmccall
Subscribers: rjmccall, rsmith, aaron.ballman, junbuml, mgorny, cfe-commits
Differential Revision: https://reviews.llvm.org/D45476
llvm-svn: 331677
2018-05-08 05:07:10 +08:00
// expected-warning@-1 {{three-way comparison result unused}}
static_assert ( std : : strong_ordering : : equal = = 0 ) ;
constexpr void f ( ) {
void ( 1 < = > 1 ) ;
}
struct MemPtr {
void foo ( ) { }
void bar ( ) { }
int data ;
int data2 ;
long data3 ;
} ;
struct MemPtr2 {
void foo ( ) { }
void bar ( ) { }
int data ;
int data2 ;
long data3 ;
} ;
using MemPtrT = void ( MemPtr : : * ) ( ) ;
using FnPtrT = void ( * ) ( ) ;
void FnPtr1 ( ) { }
void FnPtr2 ( ) { }
# define CHECK(...) ((__VA_ARGS__) ? void() : throw "error")
# define CHECK_TYPE(...) static_assert(__is_same(__VA_ARGS__));
constexpr bool test_constexpr_success = [ ] {
{
auto & EQ = std : : strong_ordering : : equal ;
auto & LESS = std : : strong_ordering : : less ;
auto & GREATER = std : : strong_ordering : : greater ;
using SO = std : : strong_ordering ;
auto eq = ( 42 < = > 42 ) ;
CHECK_TYPE ( decltype ( eq ) , SO ) ;
CHECK ( eq . test_eq ( EQ ) ) ;
auto less = ( - 1 < = > 0 ) ;
CHECK_TYPE ( decltype ( less ) , SO ) ;
CHECK ( less . test_eq ( LESS ) ) ;
auto greater = ( 42l < = > 1u ) ;
CHECK_TYPE ( decltype ( greater ) , SO ) ;
CHECK ( greater . test_eq ( GREATER ) ) ;
}
{
using PO = std : : partial_ordering ;
auto EQUIV = PO : : equivalent ;
auto LESS = PO : : less ;
auto GREATER = PO : : greater ;
auto eq = ( 42.0 < = > 42.0 ) ;
CHECK_TYPE ( decltype ( eq ) , PO ) ;
CHECK ( eq . test_eq ( EQUIV ) ) ;
auto less = ( 39.0 < = > 42.0 ) ;
CHECK_TYPE ( decltype ( less ) , PO ) ;
CHECK ( less . test_eq ( LESS ) ) ;
auto greater = ( - 10.123 < = > - 101.1 ) ;
CHECK_TYPE ( decltype ( greater ) , PO ) ;
CHECK ( greater . test_eq ( GREATER ) ) ;
}
{
using SE = std : : strong_equality ;
auto EQ = SE : : equal ;
auto NEQ = SE : : nonequal ;
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[C++2a] Implement operator<=> CodeGen and ExprConstant
Summary:
This patch tackles long hanging fruit for the builtin operator<=> expressions. It is currently needs some cleanup before landing, but I want to get some initial feedback.
The main changes are:
* Lookup, build, and store the required standard library types and expressions in `ASTContext`. By storing them in ASTContext we don't need to store (and duplicate) the required expressions in the BinaryOperator AST nodes.
* Implement [expr.spaceship] checking, including diagnosing narrowing conversions.
* Implement `ExprConstant` for builtin spaceship operators.
* Implement builitin operator<=> support in `CodeGenAgg`. Initially I emitted the required comparisons using `ScalarExprEmitter::VisitBinaryOperator`, but this caused the operand expressions to be emitted once for every required cmp.
* Implement [builtin.over] with modifications to support the intent of P0946R0. See the note on `BuiltinOperatorOverloadBuilder::addThreeWayArithmeticOverloads` for more information about the workaround.
Reviewers: rsmith, aaron.ballman, majnemer, rnk, compnerd, rjmccall
Reviewed By: rjmccall
Subscribers: rjmccall, rsmith, aaron.ballman, junbuml, mgorny, cfe-commits
Differential Revision: https://reviews.llvm.org/D45476
llvm-svn: 331677
2018-05-08 05:07:10 +08:00
MemPtrT P1 = & MemPtr : : foo ;
MemPtrT P12 = & MemPtr : : foo ;
MemPtrT P2 = & MemPtr : : bar ;
MemPtrT P3 = nullptr ;
auto eq = ( P1 < = > P12 ) ;
CHECK_TYPE ( decltype ( eq ) , SE ) ;
CHECK ( eq . test_eq ( EQ ) ) ;
auto neq = ( P1 < = > P2 ) ;
CHECK_TYPE ( decltype ( eq ) , SE ) ;
CHECK ( neq . test_eq ( NEQ ) ) ;
auto eq2 = ( P3 < = > nullptr ) ;
CHECK_TYPE ( decltype ( eq2 ) , SE ) ;
CHECK ( eq2 . test_eq ( EQ ) ) ;
}
{
using SE = std : : strong_equality ;
auto EQ = SE : : equal ;
auto NEQ = SE : : nonequal ;
FnPtrT F1 = & FnPtr1 ;
FnPtrT F12 = & FnPtr1 ;
FnPtrT F2 = & FnPtr2 ;
FnPtrT F3 = nullptr ;
auto eq = ( F1 < = > F12 ) ;
CHECK_TYPE ( decltype ( eq ) , SE ) ;
CHECK ( eq . test_eq ( EQ ) ) ;
auto neq = ( F1 < = > F2 ) ;
CHECK_TYPE ( decltype ( neq ) , SE ) ;
CHECK ( neq . test_eq ( NEQ ) ) ;
}
{ // mixed nullptr tests
using SO = std : : strong_ordering ;
using SE = std : : strong_equality ;
int x = 42 ;
int * xp = & x ;
MemPtrT mf = nullptr ;
MemPtrT mf2 = & MemPtr : : foo ;
auto r3 = ( mf < = > nullptr ) ;
CHECK_TYPE ( decltype ( r3 ) , std : : strong_equality ) ;
CHECK ( r3 . test_eq ( SE : : equal ) ) ;
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}
[C++2a] Implement operator<=> CodeGen and ExprConstant
Summary:
This patch tackles long hanging fruit for the builtin operator<=> expressions. It is currently needs some cleanup before landing, but I want to get some initial feedback.
The main changes are:
* Lookup, build, and store the required standard library types and expressions in `ASTContext`. By storing them in ASTContext we don't need to store (and duplicate) the required expressions in the BinaryOperator AST nodes.
* Implement [expr.spaceship] checking, including diagnosing narrowing conversions.
* Implement `ExprConstant` for builtin spaceship operators.
* Implement builitin operator<=> support in `CodeGenAgg`. Initially I emitted the required comparisons using `ScalarExprEmitter::VisitBinaryOperator`, but this caused the operand expressions to be emitted once for every required cmp.
* Implement [builtin.over] with modifications to support the intent of P0946R0. See the note on `BuiltinOperatorOverloadBuilder::addThreeWayArithmeticOverloads` for more information about the workaround.
Reviewers: rsmith, aaron.ballman, majnemer, rnk, compnerd, rjmccall
Reviewed By: rjmccall
Subscribers: rjmccall, rsmith, aaron.ballman, junbuml, mgorny, cfe-commits
Differential Revision: https://reviews.llvm.org/D45476
llvm-svn: 331677
2018-05-08 05:07:10 +08:00
return true ;
} ( ) ;
template < auto LHS , auto RHS , bool ExpectTrue = false >
constexpr bool test_constexpr ( ) {
using nullptr_t = decltype ( nullptr ) ;
using LHSTy = decltype ( LHS ) ;
using RHSTy = decltype ( RHS ) ;
// expected-note@+1 {{subexpression not valid in a constant expression}}
auto Res = ( LHS < = > RHS ) ;
if constexpr ( __is_same ( LHSTy , nullptr_t ) | | __is_same ( RHSTy , nullptr_t ) ) {
CHECK_TYPE ( decltype ( Res ) , std : : strong_equality ) ;
}
if ( ExpectTrue )
return Res = = 0 ;
return Res ! = 0 ;
}
int dummy = 42 ;
int dummy2 = 101 ;
constexpr bool tc1 = test_constexpr < nullptr , & dummy > ( ) ;
constexpr bool tc2 = test_constexpr < & dummy , nullptr > ( ) ;
// OK, equality comparison only
constexpr bool tc3 = test_constexpr < & MemPtr : : foo , nullptr > ( ) ;
constexpr bool tc4 = test_constexpr < nullptr , & MemPtr : : foo > ( ) ;
constexpr bool tc5 = test_constexpr < & MemPtr : : foo , & MemPtr : : bar > ( ) ;
constexpr bool tc6 = test_constexpr < & MemPtr : : data , nullptr > ( ) ;
constexpr bool tc7 = test_constexpr < nullptr , & MemPtr : : data > ( ) ;
constexpr bool tc8 = test_constexpr < & MemPtr : : data , & MemPtr : : data2 > ( ) ;
// expected-error@+1 {{must be initialized by a constant expression}}
constexpr bool tc9 = test_constexpr < & dummy , & dummy2 > ( ) ; // expected-note {{in call}}
template < class T , class R , class I >
constexpr T makeComplex ( R r , I i ) {
T res { r , i } ;
return res ;
} ;
template < class T , class ResultT >
constexpr bool complex_test ( T x , T y , ResultT Expect ) {
auto res = x < = > y ;
CHECK_TYPE ( decltype ( res ) , ResultT ) ;
return res . test_eq ( Expect ) ;
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}
[C++2a] Implement operator<=> CodeGen and ExprConstant
Summary:
This patch tackles long hanging fruit for the builtin operator<=> expressions. It is currently needs some cleanup before landing, but I want to get some initial feedback.
The main changes are:
* Lookup, build, and store the required standard library types and expressions in `ASTContext`. By storing them in ASTContext we don't need to store (and duplicate) the required expressions in the BinaryOperator AST nodes.
* Implement [expr.spaceship] checking, including diagnosing narrowing conversions.
* Implement `ExprConstant` for builtin spaceship operators.
* Implement builitin operator<=> support in `CodeGenAgg`. Initially I emitted the required comparisons using `ScalarExprEmitter::VisitBinaryOperator`, but this caused the operand expressions to be emitted once for every required cmp.
* Implement [builtin.over] with modifications to support the intent of P0946R0. See the note on `BuiltinOperatorOverloadBuilder::addThreeWayArithmeticOverloads` for more information about the workaround.
Reviewers: rsmith, aaron.ballman, majnemer, rnk, compnerd, rjmccall
Reviewed By: rjmccall
Subscribers: rjmccall, rsmith, aaron.ballman, junbuml, mgorny, cfe-commits
Differential Revision: https://reviews.llvm.org/D45476
llvm-svn: 331677
2018-05-08 05:07:10 +08:00
static_assert ( complex_test ( makeComplex < _Complex double > ( 0.0 , 0.0 ) ,
makeComplex < _Complex double > ( 0.0 , 0.0 ) ,
std : : weak_equality : : equivalent ) ) ;
static_assert ( complex_test ( makeComplex < _Complex double > ( 0.0 , 0.0 ) ,
makeComplex < _Complex double > ( 1.0 , 0.0 ) ,
std : : weak_equality : : nonequivalent ) ) ;
static_assert ( complex_test ( makeComplex < _Complex double > ( 0.0 , 0.0 ) ,
makeComplex < _Complex double > ( 0.0 , 1.0 ) ,
std : : weak_equality : : nonequivalent ) ) ;
static_assert ( complex_test ( makeComplex < _Complex int > ( 0 , 0 ) ,
makeComplex < _Complex int > ( 0 , 0 ) ,
std : : strong_equality : : equal ) ) ;
static_assert ( complex_test ( makeComplex < _Complex int > ( 0 , 0 ) ,
makeComplex < _Complex int > ( 1 , 0 ) ,
std : : strong_equality : : nonequal ) ) ;
// TODO: defaulted operator <=>
} // namespace ThreeWayComparison
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constexpr bool for_range_init ( ) {
int k = 0 ;
for ( int arr [ 3 ] = { 1 , 2 , 3 } ; int n : arr ) k + = n ;
return k = = 6 ;
}
static_assert ( for_range_init ( ) ) ;
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namespace Virtual {
struct NonZeroOffset { int padding = 123 ; } ;
// Ensure that we pick the right final overrider during construction.
struct A {
virtual constexpr char f ( ) const { return ' A ' ; }
char a = f ( ) ;
} ;
struct NoOverrideA : A { } ;
struct B : NonZeroOffset , NoOverrideA {
virtual constexpr char f ( ) const { return ' B ' ; }
char b = f ( ) ;
} ;
struct NoOverrideB : B { } ;
struct C : NonZeroOffset , A {
virtual constexpr char f ( ) const { return ' C ' ; }
A * pba ;
char c = ( ( A * ) this ) - > f ( ) ;
char ba = pba - > f ( ) ;
constexpr C ( A * pba ) : pba ( pba ) { }
} ;
struct D : NonZeroOffset , NoOverrideB , C { // expected-warning {{inaccessible}}
virtual constexpr char f ( ) const { return ' D ' ; }
char d = f ( ) ;
constexpr D ( ) : C ( ( B * ) this ) { }
} ;
constexpr D d ;
static_assert ( ( ( B & ) d ) . a = = ' A ' ) ;
static_assert ( ( ( C & ) d ) . a = = ' A ' ) ;
static_assert ( d . b = = ' B ' ) ;
static_assert ( d . c = = ' C ' ) ;
// During the construction of C, the dynamic type of B's A is B.
static_assert ( d . ba = = ' B ' ) ;
static_assert ( d . d = = ' D ' ) ;
static_assert ( d . f ( ) = = ' D ' ) ;
constexpr const A & a = ( B & ) d ;
constexpr const B & b = d ;
static_assert ( a . f ( ) = = ' D ' ) ;
static_assert ( b . f ( ) = = ' D ' ) ;
// FIXME: It is unclear whether this should be permitted.
D d_not_constexpr ;
static_assert ( d_not_constexpr . f ( ) = = ' D ' ) ; // expected-error {{constant expression}} expected-note {{virtual function called on object 'd_not_constexpr' whose dynamic type is not constant}}
// Check that we apply a proper adjustment for a covariant return type.
struct Covariant1 {
D d ;
virtual const A * f ( ) const ;
} ;
template < typename T >
struct Covariant2 : Covariant1 {
virtual const T * f ( ) const ;
} ;
template < typename T >
struct Covariant3 : Covariant2 < T > {
constexpr virtual const D * f ( ) const { return & this - > d ; }
} ;
constexpr Covariant3 < B > cb ;
constexpr Covariant3 < C > cc ;
constexpr const Covariant1 * cb1 = & cb ;
constexpr const Covariant2 < B > * cb2 = & cb ;
static_assert ( cb1 - > f ( ) - > a = = ' A ' ) ;
static_assert ( cb1 - > f ( ) = = ( B * ) & cb . d ) ;
static_assert ( cb1 - > f ( ) - > f ( ) = = ' D ' ) ;
static_assert ( cb2 - > f ( ) - > b = = ' B ' ) ;
static_assert ( cb2 - > f ( ) = = & cb . d ) ;
static_assert ( cb2 - > f ( ) - > f ( ) = = ' D ' ) ;
constexpr const Covariant1 * cc1 = & cc ;
constexpr const Covariant2 < C > * cc2 = & cc ;
static_assert ( cc1 - > f ( ) - > a = = ' A ' ) ;
static_assert ( cc1 - > f ( ) = = ( C * ) & cc . d ) ;
static_assert ( cc1 - > f ( ) - > f ( ) = = ' D ' ) ;
static_assert ( cc2 - > f ( ) - > c = = ' C ' ) ;
static_assert ( cc2 - > f ( ) = = & cc . d ) ;
static_assert ( cc2 - > f ( ) - > f ( ) = = ' D ' ) ;
static_assert ( cb . f ( ) - > d = = ' D ' ) ;
static_assert ( cc . f ( ) - > d = = ' D ' ) ;
struct Abstract {
constexpr virtual void f ( ) = 0 ; // expected-note {{declared here}}
constexpr Abstract ( ) { do_it ( ) ; } // expected-note {{in call to}}
constexpr void do_it ( ) { f ( ) ; } // expected-note {{pure virtual function 'Virtual::Abstract::f' called}}
} ;
struct PureVirtualCall : Abstract { void f ( ) ; } ; // expected-note {{in call to 'Abstract}}
constexpr PureVirtualCall pure_virtual_call ; // expected-error {{constant expression}} expected-note {{in call to 'PureVirtualCall}}
}
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namespace DynamicCast {
struct A2 { virtual void a2 ( ) ; } ;
struct A : A2 { virtual void a ( ) ; } ;
struct B : A { } ;
struct C2 { virtual void c2 ( ) ; } ;
struct C : A , C2 { A * c = dynamic_cast < A * > ( static_cast < C2 * > ( this ) ) ; } ;
struct D { virtual void d ( ) ; } ;
struct E { virtual void e ( ) ; } ;
struct F : B , C , D , private E { void * f = dynamic_cast < void * > ( static_cast < D * > ( this ) ) ; } ;
struct Padding { virtual void padding ( ) ; } ;
struct G : Padding , F { } ;
constexpr G g ;
// During construction of C, A is unambiguous subobject of dynamic type C.
static_assert ( g . c = = ( C * ) & g ) ;
// ... but in the complete object, the same is not true, so the runtime fails.
static_assert ( dynamic_cast < const A * > ( static_cast < const C2 * > ( & g ) ) = = nullptr ) ;
// dynamic_cast<void*> produces a pointer to the object of the dynamic type.
static_assert ( g . f = = ( void * ) ( F * ) & g ) ;
static_assert ( dynamic_cast < const void * > ( static_cast < const D * > ( & g ) ) = = & g ) ;
// expected-note@+1 {{reference dynamic_cast failed: 'DynamicCast::A' is an ambiguous base class of dynamic type 'DynamicCast::G' of operand}}
constexpr int d_a = ( dynamic_cast < const A & > ( static_cast < const D & > ( g ) ) , 0 ) ; // expected-error {{}}
// Can navigate from A2 to its A...
static_assert ( & dynamic_cast < A & > ( ( A2 & ) ( B & ) g ) = = & ( A & ) ( B & ) g ) ;
// ... and from B to its A ...
static_assert ( & dynamic_cast < A & > ( ( B & ) g ) = = & ( A & ) ( B & ) g ) ;
// ... but not from D.
// expected-note@+1 {{reference dynamic_cast failed: 'DynamicCast::A' is an ambiguous base class of dynamic type 'DynamicCast::G' of operand}}
static_assert ( & dynamic_cast < A & > ( ( D & ) g ) = = & ( A & ) ( B & ) g ) ; // expected-error {{}}
// Can cast from A2 to sibling class D.
static_assert ( & dynamic_cast < D & > ( ( A2 & ) ( B & ) g ) = = & ( D & ) g ) ;
// Cannot cast from private base E to derived class F.
// expected-note@+1 {{reference dynamic_cast failed: static type 'DynamicCast::E' of operand is a non-public base class of dynamic type 'DynamicCast::G'}}
constexpr int e_f = ( dynamic_cast < F & > ( ( E & ) g ) , 0 ) ; // expected-error {{}}
// Cannot cast from B to private sibling E.
// expected-note@+1 {{reference dynamic_cast failed: 'DynamicCast::E' is a non-public base class of dynamic type 'DynamicCast::G' of operand}}
constexpr int b_e = ( dynamic_cast < E & > ( ( B & ) g ) , 0 ) ; // expected-error {{}}
struct Unrelated { virtual void unrelated ( ) ; } ;
// expected-note@+1 {{reference dynamic_cast failed: dynamic type 'DynamicCast::G' of operand does not have a base class of type 'DynamicCast::Unrelated'}}
constexpr int b_unrelated = ( dynamic_cast < Unrelated & > ( ( B & ) g ) , 0 ) ; // expected-error {{}}
// expected-note@+1 {{reference dynamic_cast failed: dynamic type 'DynamicCast::G' of operand does not have a base class of type 'DynamicCast::Unrelated'}}
constexpr int e_unrelated = ( dynamic_cast < Unrelated & > ( ( E & ) g ) , 0 ) ; // expected-error {{}}
}
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namespace TypeId {
struct A {
const std : : type_info & ti = typeid ( * this ) ;
} ;
struct A2 : A { } ;
static_assert ( & A ( ) . ti = = & typeid ( A ) ) ;
static_assert ( & typeid ( ( A2 ( ) ) ) = = & typeid ( A2 ) ) ;
extern A2 extern_a2 ;
static_assert ( & typeid ( extern_a2 ) = = & typeid ( A2 ) ) ;
constexpr A2 a2 ;
constexpr const A & a1 = a2 ;
static_assert ( & typeid ( a1 ) = = & typeid ( A ) ) ;
struct B {
virtual void f ( ) ;
const std : : type_info & ti1 = typeid ( * this ) ;
} ;
struct B2 : B {
const std : : type_info & ti2 = typeid ( * this ) ;
} ;
static_assert ( & B2 ( ) . ti1 = = & typeid ( B ) ) ;
static_assert ( & B2 ( ) . ti2 = = & typeid ( B2 ) ) ;
extern B2 extern_b2 ;
// expected-note@+1 {{typeid applied to object 'extern_b2' whose dynamic type is not constant}}
static_assert ( & typeid ( extern_b2 ) = = & typeid ( B2 ) ) ; // expected-error {{constant expression}}
constexpr B2 b2 ;
constexpr const B & b1 = b2 ;
static_assert ( & typeid ( b1 ) = = & typeid ( B2 ) ) ;
constexpr bool side_effects ( ) {
// Not polymorphic nor a glvalue.
bool OK = true ;
( void ) typeid ( OK = false , A2 ( ) ) ; // expected-warning {{has no effect}}
if ( ! OK ) return false ;
// Not polymorphic.
A2 a2 ;
( void ) typeid ( OK = false , a2 ) ; // expected-warning {{has no effect}}
if ( ! OK ) return false ;
// Not a glvalue.
( void ) typeid ( OK = false , B2 ( ) ) ; // expected-warning {{has no effect}}
if ( ! OK ) return false ;
// Polymorphic glvalue: operand evaluated.
OK = false ;
B2 b2 ;
( void ) typeid ( OK = true , b2 ) ; // expected-warning {{will be evaluated}}
return OK ;
}
static_assert ( side_effects ( ) ) ;
}