gcc/libstdc++-v3/include/bits/sequence_concepts.h
Benjamin Kosnik 725dc051ca include: New directory.
2000-10-05  Benjamin Kosnik  <bkoz@cygnus.com>

	* include: New directory.
	* include/backward: New directory.
	* include/bits: New directory.
	* include/ext: New directory.
	* include/std: New directory.
	* include/*/*: Populate.

	* src/complex.cc: Adjust include of mathconf.

	* mkc++config (BASE_H): Add include.

	* src/Makefile.am: Support for topleve sources include directory.
	(INCLUDES): Add LIBMATH_INCLUDE.
	* src/Makefile.in: Regenerate.
	* math/Makefile.am (INCLUDES): Append /include.
	* math/Makefile.in: Regenerate.
	* libio/Makefile.am (INCLUDES): Add glibcpp_includedir.
	* libio/Makefile.in: Regenerate.

From-SVN: r36723
2000-10-05 11:27:02 +00:00

205 lines
6.9 KiB
C++

/*
* 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 STL_SEQUENCE_CONCEPTS_H
#define STL_SEQUENCE_CONCEPTS_H
#include <bits/container_concepts.h>
#ifdef __STL_USE_CONCEPT_CHECKS
// This file covers the following concepts:
// _Sequence
// _FrontInsertionSequence
// _BackInsertionSequence
struct _ERROR_IN_STL_SEQ {
template <class _XX>
static void
__fill_constructor_requirement_violation(_XX& __s) {
typename _XX::value_type __t = typename _XX::value_type();
typename _XX::difference_type __n = typename _XX::difference_type();
_XX __x(__n, __t);
__sink_unused_warning(__x);
}
template <class _XX>
static void
__fill_default_constructor_requirement_violation(_XX& __s) {
_STL_ERROR::__default_constructor_requirement_violation(*__s.begin());
typename _XX::difference_type __n = typename _XX::difference_type();
_XX __x(__n);
__sink_unused_warning(__x);
}
template <class _XX>
static void
__range_constructor_requirement_violation(_XX& __s) {
_XX __x(__s.begin(), __s.end());
__sink_unused_warning(__x);
}
template <class _XX>
static void
__insert_function_requirement_violation(_XX& __s) {
typename _XX::value_type __t = typename _XX::value_type();
typename _XX::iterator __p = typename _XX::iterator();
__p = __s.insert(__p, __t);
}
template <class _XX>
static void
__fill_insert_function_requirement_violation(_XX& __s) {
typename _XX::value_type __t = typename _XX::value_type();
typename _XX::iterator __p = typename _XX::iterator();
typename _XX::difference_type __n = typename _XX::difference_type();
__s.insert(__p, __n, __t);
}
template <class _XX>
static void
__range_insert_function_requirement_violation(_XX& __s) {
typename _XX::iterator __p = typename _XX::iterator();
typename _XX::iterator __i = typename _XX::iterator();
typename _XX::iterator __j = typename _XX::iterator();
__s.insert(__p, __i, __j);
}
template <class _XX>
static void
__insert_element_function_requirement_violation(_XX& __s) {
typename _XX::value_type __t = typename _XX::value_type();
std::pair<typename _XX::iterator, bool> __r;
__r = __s.insert(__t);
__sink_unused_warning(__r);
}
template <class _XX>
static void
__unconditional_insert_element_function_requirement_violation(_XX& __s) {
typename _XX::value_type __t = typename _XX::value_type();
typename _XX::iterator __p;
__p = __s.insert(__t);
__sink_unused_warning(__p);
}
template <class _XX>
static void
__erase_function_requirement_violation(_XX& __s) {
typename _XX::iterator __p = typename _XX::iterator();
__p = __s.erase(__p);
}
template <class _XX>
static void
__range_erase_function_requirement_violation(_XX& __s) {
typename _XX::iterator __p = typename _XX::iterator();
typename _XX::iterator __q = typename _XX::iterator();
__p = __s.erase(__p, __q);
}
template <class _XX>
static void
__const_front_function_requirement_violation(const _XX& __s) {
typename _XX::const_reference __t = __s.front();
__sink_unused_warning(__t);
}
template <class _XX>
static void
__front_function_requirement_violation(_XX& __s) {
typename _XX::reference __t = __s.front();
__const_front_function_requirement_violation(__s);
__sink_unused_warning(__t);
}
template <class _XX>
static void
__const_back_function_requirement_violation(const _XX& __s) {
typename _XX::const_reference __t = __s.back();
__sink_unused_warning(__t);
}
template <class _XX>
static void
__back_function_requirement_violation(_XX& __s) {
typename _XX::reference __t = __s.back();
__const_back_function_requirement_violation(__s);
__sink_unused_warning(__t);
}
template <class _XX>
static void
__push_front_function_requirement_violation(_XX& __s) {
typename _XX::value_type __t = typename _XX::value_type();
__s.push_front(__t);
}
template <class _XX>
static void
__pop_front_function_requirement_violation(_XX& __s) {
__s.pop_front();
}
template <class _XX>
static void
__push_back_function_requirement_violation(_XX& __s) {
typename _XX::value_type __t = typename _XX::value_type();
__s.push_back(__t);
}
template <class _XX>
static void
__pop_back_function_requirement_violation(_XX& __s) {
__s.pop_back();
}
};
/* Sequence Containers */
template <class _Sequence>
struct _Sequence_concept_specification {
static void
_Sequence_requirement_violation(_Sequence __s) {
// Refinement of ForwardContainer
_ForwardContainer_concept_specification<_Sequence>::_ForwardContainer_requirement_violation(__s);
// Refinement of DefaultConstructible
_DefaultConstructible_concept_specification<_Sequence>::_DefaultConstructible_requirement_violation(__s);
// Valid Expressions
_ERROR_IN_STL_SEQ::__fill_constructor_requirement_violation(__s);
_ERROR_IN_STL_SEQ::__fill_default_constructor_requirement_violation(__s);
_ERROR_IN_STL_SEQ::__range_constructor_requirement_violation(__s);
_ERROR_IN_STL_SEQ::__insert_function_requirement_violation(__s);
_ERROR_IN_STL_SEQ::__fill_insert_function_requirement_violation(__s);
_ERROR_IN_STL_SEQ::__range_insert_function_requirement_violation(__s);
_ERROR_IN_STL_SEQ::__erase_function_requirement_violation(__s);
_ERROR_IN_STL_SEQ::__range_erase_function_requirement_violation(__s);
_ERROR_IN_STL_SEQ::__front_function_requirement_violation(__s);
}
};
template <class _FrontInsertionSequence>
struct _FrontInsertionSequence_concept_specification {
static void
_FrontInsertionSequence_requirement_violation(_FrontInsertionSequence __s) {
// Refinement of Sequence
_Sequence_concept_specification<_FrontInsertionSequence>::_Sequence_requirement_violation(__s);
// Valid Expressions
_ERROR_IN_STL_SEQ::__push_front_function_requirement_violation(__s);
_ERROR_IN_STL_SEQ::__pop_front_function_requirement_violation(__s);
}
};
template <class _BackInsertionSequence>
struct _BackInsertionSequence_concept_specification {
static void
_BackInsertionSequence_requirement_violation(_BackInsertionSequence __s) {
// Refinement of Sequence
_Sequence_concept_specification<_BackInsertionSequence>::_Sequence_requirement_violation(__s);
// Valid Expressions
_ERROR_IN_STL_SEQ::__back_function_requirement_violation(__s);
_ERROR_IN_STL_SEQ::__push_back_function_requirement_violation(__s);
_ERROR_IN_STL_SEQ::__pop_back_function_requirement_violation(__s);
}
};
#endif /* if __STL_USE_CONCEPT_CHECKS */
#endif /* STL_SEQUENCE_CONCEPTS_H */