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kolibrios/contrib/media/updf/include/bits/concept_checks.h
right-hearted 4f7ee97ec9 uPDF with buttons 
git-svn-id: svn://kolibrios.org@4680 a494cfbc-eb01-0410-851d-a64ba20cac60
2014-03-22 21:00:40 +00:00

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/*
* Copyright (c) 1999
* Silicon Graphics Computer Systems, Inc.
*
* Permission to use, copy, modify, distribute and sell this software
* and its documentation for any purpose is hereby granted without fee,
* provided that the above copyright notice appear in all copies and
* that both that copyright notice and this permission notice appear
* in supporting documentation. Silicon Graphics makes no
* representations about the suitability of this software for any
* purpose. It is provided "as is" without express or implied warranty.
*/
#ifndef __CONCEPT_CHECKS_H
#define __CONCEPT_CHECKS_H
/*
Use these macro like assertions, but they assert properties
on types (usually template arguments). In technical terms they
verify whether a type "models" a "concept".
This set of requirements and the terminology used here is derived
from the book "Generic Programming and the STL" by Matt Austern
(Addison Wesley). For further information please consult that
book. The requirements also are intended to match the ANSI/ISO C++
standard.
This file covers the basic concepts and the iterator concepts.
There are several other files that provide the requirements
for the STL containers:
container_concepts.h
sequence_concepts.h
assoc_container_concepts.h
Jeremy Siek, 1999
TO DO:
- some issues with regards to concept classification and mutability
including AssociativeContianer -> ForwardContainer
and SortedAssociativeContainer -> ReversibleContainer
- HashedAssociativeContainer
- Allocator
- Function Object Concepts
*/
#ifndef __STL_USE_CONCEPT_CHECKS
// Some compilers lack the features that are necessary for concept checks.
// On those compilers we define the concept check macros to do nothing.
#define __STL_REQUIRES(__type_var, __concept) do {} while(0)
#define __STL_CLASS_REQUIRES(__type_var, __concept) \
static int __##__type_var##_##__concept
#define __STL_CONVERTIBLE(__type_x, __type_y) do {} while(0)
#define __STL_REQUIRES_SAME_TYPE(__type_x, __type_y) do {} while(0)
#define __STL_CLASS_REQUIRES_SAME_TYPE(__type_x, __type_y) \
static int __##__type_x##__type_y##_require_same_type
#define __STL_GENERATOR_CHECK(__func, __ret) do {} while(0)
#define __STL_CLASS_GENERATOR_CHECK(__func, __ret) \
static int __##__func##__ret##_generator_check
#define __STL_UNARY_FUNCTION_CHECK(__func, __ret, __arg) do {} while(0)
#define __STL_CLASS_UNARY_FUNCTION_CHECK(__func, __ret, __arg) \
static int __##__func##__ret##__arg##_unary_function_check
#define __STL_BINARY_FUNCTION_CHECK(__func, __ret, __first, __second) \
do {} while(0)
#define __STL_CLASS_BINARY_FUNCTION_CHECK(__func, __ret, __first, __second) \
static int __##__func##__ret##__first##__second##_binary_function_check
#define __STL_REQUIRES_BINARY_OP(__opname, __ret, __first, __second) \
do {} while(0)
#define __STL_CLASS_REQUIRES_BINARY_OP(__opname, __ret, __first, __second) \
static int __##__opname##__ret##__first##__second##_require_binary_op
#else /* __STL_USE_CONCEPT_CHECKS */
// This macro tests whether the template argument "__type_var"
// satisfies the requirements of "__concept". Here is a list of concepts
// that we know how to check:
// _Allocator
// _Assignable
// _DefaultConstructible
// _EqualityComparable
// _LessThanComparable
// _TrivialIterator
// _InputIterator
// _OutputIterator
// _ForwardIterator
// _BidirectionalIterator
// _RandomAccessIterator
// _Mutable_TrivialIterator
// _Mutable_ForwardIterator
// _Mutable_BidirectionalIterator
// _Mutable_RandomAccessIterator
#define __STL_REQUIRES(__type_var, __concept) \
do { \
void (*__x)( __type_var ) = __concept##_concept_specification< __type_var >\
::__concept##_requirement_violation; __x = __x; } while (0)
// Use this to check whether type X is convertible to type Y
#define __STL_CONVERTIBLE(__type_x, __type_y) \
do { \
void (*__x)( __type_x , __type_y ) = _STL_CONVERT_ERROR< __type_x , \
__type_y >::__type_X_is_not_convertible_to_type_Y; \
__x = __x; } while (0)
// Use this to test whether two template arguments are the same type
#define __STL_REQUIRES_SAME_TYPE(__type_x, __type_y) \
do { \
void (*__x)( __type_x , __type_y ) = _STL_SAME_TYPE_ERROR< __type_x, \
__type_y >::__type_X_not_same_as_type_Y; \
__x = __x; } while (0)
// function object checks
#define __STL_GENERATOR_CHECK(__func, __ret) \
do { \
__ret (*__x)( __func&) = \
_STL_GENERATOR_ERROR< \
__func, __ret>::__generator_requirement_violation; \
__x = __x; } while (0)
#define __STL_UNARY_FUNCTION_CHECK(__func, __ret, __arg) \
do { \
__ret (*__x)( __func&, const __arg& ) = \
_STL_UNARY_FUNCTION_ERROR< \
__func, __ret, __arg>::__unary_function_requirement_violation; \
__x = __x; } while (0)
#define __STL_BINARY_FUNCTION_CHECK(__func, __ret, __first, __second) \
do { \
__ret (*__x)( __func&, const __first&, const __second& ) = \
_STL_BINARY_FUNCTION_ERROR< \
__func, __ret, __first, __second>::__binary_function_requirement_violation; \
__x = __x; } while (0)
#define __STL_REQUIRES_BINARY_OP(__opname, __ret, __first, __second) \
do { \
__ret (*__x)( __first&, __second& ) = _STL_BINARY##__opname##_ERROR< \
__ret, __first, __second>::__binary_operator_requirement_violation; \
__ret (*__y)( const __first&, const __second& ) = \
_STL_BINARY##__opname##_ERROR< __ret, __first, __second>:: \
__const_binary_operator_requirement_violation; \
__y = __y; __x = __x; } while (0)
#ifdef __STL_NO_FUNCTION_PTR_IN_CLASS_TEMPLATE
#define __STL_CLASS_REQUIRES(__type_var, __concept)
#define __STL_CLASS_REQUIRES_SAME_TYPE(__type_x, __type_y)
#define __STL_CLASS_GENERATOR_CHECK(__func, __ret)
#define __STL_CLASS_UNARY_FUNCTION_CHECK(__func, __ret, __arg)
#define __STL_CLASS_BINARY_FUNCTION_CHECK(__func, __ret, __first, __second)
#define __STL_CLASS_REQUIRES_BINARY_OP(__opname, __ret, __first, __second)
#else
// Use this macro inside of template classes, where you would
// like to place requirements on the template arguments to the class
// Warning: do not pass pointers and such (e.g. T*) in as the __type_var,
// since the type_var is used to construct identifiers. Instead typedef
// the pointer type, then use the typedef name for the __type_var.
#define __STL_CLASS_REQUIRES(__type_var, __concept) \
typedef void (* __func##__type_var##__concept)( __type_var ); \
template <__func##__type_var##__concept _Tp1> \
struct __dummy_struct_##__type_var##__concept { }; \
static __dummy_struct_##__type_var##__concept< \
__concept##_concept_specification< \
__type_var>::__concept##_requirement_violation> \
__dummy_ptr_##__type_var##__concept
#define __STL_CLASS_REQUIRES_SAME_TYPE(__type_x, __type_y) \
typedef void (* __func_##__type_x##__type_y##same_type)( __type_x, \
__type_y ); \
template < __func_##__type_x##__type_y##same_type _Tp1> \
struct __dummy_struct_##__type_x##__type_y##_same_type { }; \
static __dummy_struct_##__type_x##__type_y##_same_type< \
_STL_SAME_TYPE_ERROR<__type_x, __type_y>::__type_X_not_same_as_type_Y> \
__dummy_ptr_##__type_x##__type_y##_same_type
#define __STL_CLASS_GENERATOR_CHECK(__func, __ret) \
typedef __ret (* __f_##__func##__ret##_generator)( __func& ); \
template <__f_##__func##__ret##_generator _Tp1> \
struct __dummy_struct_##__func##__ret##_generator { }; \
static __dummy_struct_##__func##__ret##_generator< \
_STL_GENERATOR_ERROR< \
__func, __ret>::__generator_requirement_violation> \
__dummy_ptr_##__func##__ret##_generator
#define __STL_CLASS_UNARY_FUNCTION_CHECK(__func, __ret, __arg) \
typedef __ret (* __f_##__func##__ret##__arg##_unary_check)( __func&, \
const __arg& ); \
template <__f_##__func##__ret##__arg##_unary_check _Tp1> \
struct __dummy_struct_##__func##__ret##__arg##_unary_check { }; \
static __dummy_struct_##__func##__ret##__arg##_unary_check< \
_STL_UNARY_FUNCTION_ERROR< \
__func, __ret, __arg>::__unary_function_requirement_violation> \
__dummy_ptr_##__func##__ret##__arg##_unary_check
#define __STL_CLASS_BINARY_FUNCTION_CHECK(__func, __ret, __first, __second) \
typedef __ret (* __f_##__func##__ret##__first##__second##_binary_check)( __func&, const __first&,\
const __second& ); \
template <__f_##__func##__ret##__first##__second##_binary_check _Tp1> \
struct __dummy_struct_##__func##__ret##__first##__second##_binary_check { }; \
static __dummy_struct_##__func##__ret##__first##__second##_binary_check< \
_STL_BINARY_FUNCTION_ERROR<__func, __ret, __first, __second>:: \
__binary_function_requirement_violation> \
__dummy_ptr_##__func##__ret##__first##__second##_binary_check
#define __STL_CLASS_REQUIRES_BINARY_OP(__opname, __ret, __first, __second) \
typedef __ret (* __f_##__func##__ret##__first##__second##_binary_op)(const __first&, \
const __second& ); \
template <__f_##__func##__ret##__first##__second##_binary_op _Tp1> \
struct __dummy_struct_##__func##__ret##__first##__second##_binary_op { }; \
static __dummy_struct_##__func##__ret##__first##__second##_binary_op< \
_STL_BINARY##__opname##_ERROR<__ret, __first, __second>:: \
__binary_operator_requirement_violation> \
__dummy_ptr_##__func##__ret##__first##__second##_binary_op
#endif
/* helper class for finding non-const version of a type. Need to have
something to assign to etc. when testing constant iterators. */
template <class _Tp>
struct _Mutable_trait {
typedef _Tp _Type;
};
template <class _Tp>
struct _Mutable_trait<const _Tp> {
typedef _Tp _Type;
};
/* helper function for avoiding compiler warnings about unused variables */
template <class _Type>
void __sink_unused_warning(_Type) { }
template <class _TypeX, class _TypeY>
struct _STL_CONVERT_ERROR {
static void
__type_X_is_not_convertible_to_type_Y(_TypeX __x, _TypeY) {
_TypeY __y = __x;
__sink_unused_warning(__y);
}
};
template <class _Type> struct __check_equal { };
template <class _TypeX, class _TypeY>
struct _STL_SAME_TYPE_ERROR {
static void
__type_X_not_same_as_type_Y(_TypeX , _TypeY ) {
__check_equal<_TypeX> t1 = __check_equal<_TypeY>();
}
};
// Some Functon Object Checks
template <class _Func, class _Ret>
struct _STL_GENERATOR_ERROR {
static _Ret __generator_requirement_violation(_Func& __f) {
return __f();
}
};
template <class _Func>
struct _STL_GENERATOR_ERROR<_Func, void> {
static void __generator_requirement_violation(_Func& __f) {
__f();
}
};
template <class _Func, class _Ret, class _Arg>
struct _STL_UNARY_FUNCTION_ERROR {
static _Ret
__unary_function_requirement_violation(_Func& __f,
const _Arg& __arg) {
return __f(__arg);
}
};
template <class _Func, class _Arg>
struct _STL_UNARY_FUNCTION_ERROR<_Func, void, _Arg> {
static void
__unary_function_requirement_violation(_Func& __f,
const _Arg& __arg) {
__f(__arg);
}
};
template <class _Func, class _Ret, class _First, class _Second>
struct _STL_BINARY_FUNCTION_ERROR {
static _Ret
__binary_function_requirement_violation(_Func& __f,
const _First& __first,
const _Second& __second) {
return __f(__first, __second);
}
};
template <class _Func, class _First, class _Second>
struct _STL_BINARY_FUNCTION_ERROR<_Func, void, _First, _Second> {
static void
__binary_function_requirement_violation(_Func& __f,
const _First& __first,
const _Second& __second) {
__f(__first, __second);
}
};
#define __STL_DEFINE_BINARY_OP_CHECK(_OP, _NAME) \
template <class _Ret, class _First, class _Second> \
struct _STL_BINARY##_NAME##_ERROR { \
static _Ret \
__const_binary_operator_requirement_violation(const _First& __first, \
const _Second& __second) { \
return __first _OP __second; \
} \
static _Ret \
__binary_operator_requirement_violation(_First& __first, \
_Second& __second) { \
return __first _OP __second; \
} \
}
__STL_DEFINE_BINARY_OP_CHECK(==, _OP_EQUAL);
__STL_DEFINE_BINARY_OP_CHECK(!=, _OP_NOT_EQUAL);
__STL_DEFINE_BINARY_OP_CHECK(<, _OP_LESS_THAN);
__STL_DEFINE_BINARY_OP_CHECK(<=, _OP_LESS_EQUAL);
__STL_DEFINE_BINARY_OP_CHECK(>, _OP_GREATER_THAN);
__STL_DEFINE_BINARY_OP_CHECK(>=, _OP_GREATER_EQUAL);
__STL_DEFINE_BINARY_OP_CHECK(+, _OP_PLUS);
__STL_DEFINE_BINARY_OP_CHECK(*, _OP_TIMES);
__STL_DEFINE_BINARY_OP_CHECK(/, _OP_DIVIDE);
__STL_DEFINE_BINARY_OP_CHECK(-, _OP_SUBTRACT);
__STL_DEFINE_BINARY_OP_CHECK(%, _OP_MOD);
// ...
// TODO, add unary operators (prefix and postfix)
/*
The presence of this class is just to trick EDG into displaying
these error messages before any other errors. Without the
classes, the errors in the functions get reported after
other class errors deep inside the library. The name
choice just makes for an eye catching error message :)
*/
struct _STL_ERROR {
template <class _Type>
static _Type
__default_constructor_requirement_violation(_Type) {
return _Type();
}
template <class _Type>
static _Type
__assignment_operator_requirement_violation(_Type __a) {
__a = __a;
return __a;
}
template <class _Type>
static _Type
__copy_constructor_requirement_violation(_Type __a) {
_Type __c(__a);
return __c;
}
template <class _Type>
static _Type
__const_parameter_required_for_copy_constructor(_Type /* __a */,
const _Type& __b) {
_Type __c(__b);
return __c;
}
template <class _Type>
static _Type
__const_parameter_required_for_assignment_operator(_Type __a,
const _Type& __b) {
__a = __b;
return __a;
}
template <class _Type>
static _Type
__less_than_comparable_requirement_violation(_Type __a, _Type __b) {
if (__a < __b) return __a;
return __b;
}
template <class _Type>
static _Type
__equality_comparable_requirement_violation(_Type __a, _Type __b) {
if (__a == __b || __a != __b) return __a;
return __b;
}
template <class _Iterator>
static void
__dereference_operator_requirement_violation(_Iterator __i) {
__sink_unused_warning(*__i);
}
template <class _Iterator>
static void
__dereference_operator_and_assignment_requirement_violation(_Iterator __i) {
*__i = *__i;
}
template <class _Iterator>
static void
__preincrement_operator_requirement_violation(_Iterator __i) {
++__i;
}
template <class _Iterator>
static void
__postincrement_operator_requirement_violation(_Iterator __i) {
__i++;
}
template <class _Iterator>
static void
__predecrement_operator_requirement_violation(_Iterator __i) {
--__i;
}
template <class _Iterator>
static void
__postdecrement_operator_requirement_violation(_Iterator __i) {
__i--;
}
template <class _Iterator, class _Type>
static void
__postincrement_operator_and_assignment_requirement_violation(_Iterator __i,
_Type __t) {
*__i++ = __t;
}
template <class _Iterator, class _Distance>
static _Iterator
__iterator_addition_assignment_requirement_violation(_Iterator __i,
_Distance __n) {
__i += __n;
return __i;
}
template <class _Iterator, class _Distance>
static _Iterator
__iterator_addition_requirement_violation(_Iterator __i, _Distance __n) {
__i = __i + __n;
__i = __n + __i;
return __i;
}
template <class _Iterator, class _Distance>
static _Iterator
__iterator_subtraction_assignment_requirement_violation(_Iterator __i,
_Distance __n) {
__i -= __n;
return __i;
}
template <class _Iterator, class _Distance>
static _Iterator
__iterator_subtraction_requirement_violation(_Iterator __i, _Distance __n) {
__i = __i - __n;
return __i;
}
template <class _Iterator, class _Distance>
static _Distance
__difference_operator_requirement_violation(_Iterator __i, _Iterator __j,
_Distance __n) {
__n = __i - __j;
return __n;
}
template <class _Exp, class _Type, class _Distance>
static _Type
__element_access_operator_requirement_violation(_Exp __x, _Type*,
_Distance __n) {
return __x[__n];
}
template <class _Exp, class _Type, class _Distance>
static void
__element_assignment_operator_requirement_violation(_Exp __x,
_Type* __t,
_Distance __n) {
__x[__n] = *__t;
}
}; /* _STL_ERROR */
/* Associated Type Requirements */
__STL_BEGIN_NAMESPACE
template <class _Iterator> struct iterator_traits;
__STL_END_NAMESPACE
template <class _Iter>
struct __value_type_type_definition_requirement_violation {
typedef typename __STD::iterator_traits<_Iter>::value_type value_type;
};
template <class _Iter>
struct __difference_type_type_definition_requirement_violation {
typedef typename __STD::iterator_traits<_Iter>::difference_type
difference_type;
};
template <class _Iter>
struct __reference_type_definition_requirement_violation {
typedef typename __STD::iterator_traits<_Iter>::reference reference;
};
template <class _Iter>
struct __pointer_type_definition_requirement_violation {
typedef typename __STD::iterator_traits<_Iter>::pointer pointer;
};
template <class _Iter>
struct __iterator_category_type_definition_requirement_violation {
typedef typename __STD::iterator_traits<_Iter>::iterator_category
iterator_category;
};
/* Assignable Requirements */
template <class _Type>
struct _Assignable_concept_specification {
static void _Assignable_requirement_violation(_Type __a) {
_STL_ERROR::__assignment_operator_requirement_violation(__a);
_STL_ERROR::__copy_constructor_requirement_violation(__a);
_STL_ERROR::__const_parameter_required_for_copy_constructor(__a,__a);
_STL_ERROR::__const_parameter_required_for_assignment_operator(__a,__a);
}
};
/* DefaultConstructible Requirements */
template <class _Type>
struct _DefaultConstructible_concept_specification {
static void _DefaultConstructible_requirement_violation(_Type __a) {
_STL_ERROR::__default_constructor_requirement_violation(__a);
}
};
/* EqualityComparable Requirements */
template <class _Type>
struct _EqualityComparable_concept_specification {
static void _EqualityComparable_requirement_violation(_Type __a) {
_STL_ERROR::__equality_comparable_requirement_violation(__a, __a);
}
};
/* LessThanComparable Requirements */
template <class _Type>
struct _LessThanComparable_concept_specification {
static void _LessThanComparable_requirement_violation(_Type __a) {
_STL_ERROR::__less_than_comparable_requirement_violation(__a, __a);
}
};
/* TrivialIterator Requirements */
template <class _TrivialIterator>
struct _TrivialIterator_concept_specification {
static void
_TrivialIterator_requirement_violation(_TrivialIterator __i) {
typedef typename
__value_type_type_definition_requirement_violation<_TrivialIterator>::
value_type __T;
// Refinement of Assignable
_Assignable_concept_specification<_TrivialIterator>::
_Assignable_requirement_violation(__i);
// Refinement of DefaultConstructible
_DefaultConstructible_concept_specification<_TrivialIterator>::
_DefaultConstructible_requirement_violation(__i);
// Refinement of EqualityComparable
_EqualityComparable_concept_specification<_TrivialIterator>::
_EqualityComparable_requirement_violation(__i);
// Valid Expressions
_STL_ERROR::__dereference_operator_requirement_violation(__i);
}
};
template <class _TrivialIterator>
struct _Mutable_TrivialIterator_concept_specification {
static void
_Mutable_TrivialIterator_requirement_violation(_TrivialIterator __i) {
_TrivialIterator_concept_specification<_TrivialIterator>::
_TrivialIterator_requirement_violation(__i);
// Valid Expressions
_STL_ERROR::__dereference_operator_and_assignment_requirement_violation(__i);
}
};
/* InputIterator Requirements */
template <class _InputIterator>
struct _InputIterator_concept_specification {
static void
_InputIterator_requirement_violation(_InputIterator __i) {
// Refinement of TrivialIterator
_TrivialIterator_concept_specification<_InputIterator>::
_TrivialIterator_requirement_violation(__i);
// Associated Types
__difference_type_type_definition_requirement_violation<_InputIterator>();
__reference_type_definition_requirement_violation<_InputIterator>();
__pointer_type_definition_requirement_violation<_InputIterator>();
__iterator_category_type_definition_requirement_violation<_InputIterator>();
// Valid Expressions
_STL_ERROR::__preincrement_operator_requirement_violation(__i);
_STL_ERROR::__postincrement_operator_requirement_violation(__i);
}
};
/* OutputIterator Requirements */
template <class _OutputIterator>
struct _OutputIterator_concept_specification {
static void
_OutputIterator_requirement_violation(_OutputIterator __i) {
// Refinement of Assignable
_Assignable_concept_specification<_OutputIterator>::
_Assignable_requirement_violation(__i);
// Associated Types
__iterator_category_type_definition_requirement_violation<_OutputIterator>();
// Valid Expressions
_STL_ERROR::__dereference_operator_requirement_violation(__i);
_STL_ERROR::__preincrement_operator_requirement_violation(__i);
_STL_ERROR::__postincrement_operator_requirement_violation(__i);
_STL_ERROR::
__postincrement_operator_and_assignment_requirement_violation(__i, *__i);
}
};
/* ForwardIterator Requirements */
template <class _ForwardIterator>
struct _ForwardIterator_concept_specification {
static void
_ForwardIterator_requirement_violation(_ForwardIterator __i) {
// Refinement of InputIterator
_InputIterator_concept_specification<_ForwardIterator>::
_InputIterator_requirement_violation(__i);
}
};
template <class _ForwardIterator>
struct _Mutable_ForwardIterator_concept_specification {
static void
_Mutable_ForwardIterator_requirement_violation(_ForwardIterator __i) {
_ForwardIterator_concept_specification<_ForwardIterator>::
_ForwardIterator_requirement_violation(__i);
// Refinement of OutputIterator
_OutputIterator_concept_specification<_ForwardIterator>::
_OutputIterator_requirement_violation(__i);
}
};
/* BidirectionalIterator Requirements */
template <class _BidirectionalIterator>
struct _BidirectionalIterator_concept_specification {
static void
_BidirectionalIterator_requirement_violation(_BidirectionalIterator __i) {
// Refinement of ForwardIterator
_ForwardIterator_concept_specification<_BidirectionalIterator>::
_ForwardIterator_requirement_violation(__i);
// Valid Expressions
_STL_ERROR::__predecrement_operator_requirement_violation(__i);
_STL_ERROR::__postdecrement_operator_requirement_violation(__i);
}
};
template <class _BidirectionalIterator>
struct _Mutable_BidirectionalIterator_concept_specification {
static void
_Mutable_BidirectionalIterator_requirement_violation(
_BidirectionalIterator __i)
{
_BidirectionalIterator_concept_specification<_BidirectionalIterator>::
_BidirectionalIterator_requirement_violation(__i);
// Refinement of mutable_ForwardIterator
_Mutable_ForwardIterator_concept_specification<_BidirectionalIterator>::
_Mutable_ForwardIterator_requirement_violation(__i);
typedef typename
__value_type_type_definition_requirement_violation<
_BidirectionalIterator>::value_type __T;
typename _Mutable_trait<__T>::_Type* __tmp_ptr = 0;
// Valid Expressions
_STL_ERROR::
__postincrement_operator_and_assignment_requirement_violation(__i,
*__tmp_ptr);
}
};
/* RandomAccessIterator Requirements */
template <class _RandAccIter>
struct _RandomAccessIterator_concept_specification {
static void
_RandomAccessIterator_requirement_violation(_RandAccIter __i) {
// Refinement of BidirectionalIterator
_BidirectionalIterator_concept_specification<_RandAccIter>::
_BidirectionalIterator_requirement_violation(__i);
// Refinement of LessThanComparable
_LessThanComparable_concept_specification<_RandAccIter>::
_LessThanComparable_requirement_violation(__i);
typedef typename
__value_type_type_definition_requirement_violation<_RandAccIter>
::value_type
value_type;
typedef typename
__difference_type_type_definition_requirement_violation<_RandAccIter>
::difference_type
_Dist;
typedef typename _Mutable_trait<_Dist>::_Type _MutDist;
// Valid Expressions
_STL_ERROR::__iterator_addition_assignment_requirement_violation(__i,
_MutDist());
_STL_ERROR::__iterator_addition_requirement_violation(__i,
_MutDist());
_STL_ERROR::
__iterator_subtraction_assignment_requirement_violation(__i,
_MutDist());
_STL_ERROR::__iterator_subtraction_requirement_violation(__i,
_MutDist());
_STL_ERROR::__difference_operator_requirement_violation(__i, __i,
_MutDist());
typename _Mutable_trait<value_type>::_Type* __dummy_ptr = 0;
_STL_ERROR::__element_access_operator_requirement_violation(__i,
__dummy_ptr,
_MutDist());
}
};
template <class _RandAccIter>
struct _Mutable_RandomAccessIterator_concept_specification {
static void
_Mutable_RandomAccessIterator_requirement_violation(_RandAccIter __i)
{
_RandomAccessIterator_concept_specification<_RandAccIter>::
_RandomAccessIterator_requirement_violation(__i);
// Refinement of mutable_BidirectionalIterator
_Mutable_BidirectionalIterator_concept_specification<_RandAccIter>::
_Mutable_BidirectionalIterator_requirement_violation(__i);
typedef typename
__value_type_type_definition_requirement_violation<_RandAccIter>
::value_type
value_type;
typedef typename
__difference_type_type_definition_requirement_violation<_RandAccIter>
::difference_type
_Dist;
typename _Mutable_trait<value_type>::_Type* __tmp_ptr = 0;
// Valid Expressions
_STL_ERROR::__element_assignment_operator_requirement_violation(__i,
__tmp_ptr, _Dist());
}
};
#define __STL_TYPEDEF_REQUIREMENT(__REQUIREMENT) \
template <class Type> \
struct __##__REQUIREMENT##__typedef_requirement_violation { \
typedef typename Type::__REQUIREMENT __REQUIREMENT; \
}
__STL_TYPEDEF_REQUIREMENT(value_type);
__STL_TYPEDEF_REQUIREMENT(difference_type);
__STL_TYPEDEF_REQUIREMENT(size_type);
__STL_TYPEDEF_REQUIREMENT(reference);
__STL_TYPEDEF_REQUIREMENT(const_reference);
__STL_TYPEDEF_REQUIREMENT(pointer);
__STL_TYPEDEF_REQUIREMENT(const_pointer);
template <class _Alloc>
struct _Allocator_concept_specification {
static void
_Allocator_requirement_violation(_Alloc __a) {
// Refinement of DefaultConstructible
_DefaultConstructible_concept_specification<_Alloc>::
_DefaultConstructible_requirement_violation(__a);
// Refinement of EqualityComparable
_EqualityComparable_concept_specification<_Alloc>::
_EqualityComparable_requirement_violation(__a);
// Associated Types
__value_type__typedef_requirement_violation<_Alloc>();
__difference_type__typedef_requirement_violation<_Alloc>();
__size_type__typedef_requirement_violation<_Alloc>();
__reference__typedef_requirement_violation<_Alloc>();
__const_reference__typedef_requirement_violation<_Alloc>();
__pointer__typedef_requirement_violation<_Alloc>();
__const_pointer__typedef_requirement_violation<_Alloc>();
typedef typename _Alloc::value_type _Tp;
//__STL_REQUIRES_SAME_TYPE(typename _Alloc::__STL_TEMPLATE rebind<_Tp>::other,
// _Alloc);
}
};
#endif /* __STL_USE_CONCEPT_CHECKS */
#endif /* __CONCEPT_CHECKS_H */
// Local Variables:
// mode:C++
// End:
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