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cobalt / cobalt / 71840339e1109efe930df5c60712d91cdcc962a8 / . / src / third_party / mozjs-45 / build / stlport / stlport / stl / debug / _debug.c
blob: 99d5c6b24286b53cd52e6173d3d8d16d0ba7a131 [file] [log] [blame]
/*
*
* Copyright (c) 1997
* Moscow Center for SPARC Technology
*
* Copyright (c) 1999
* Boris Fomitchev
*
* This material is provided "as is", with absolutely no warranty expressed
* or implied. Any use is at your own risk.
*
* Permission to use or copy this software for any purpose is hereby granted
* without fee, provided the above notices are retained on all copies.
* Permission to modify the code and to distribute modified code is granted,
* provided the above notices are retained, and a notice that the code was
* modified is included with the above copyright notice.
*
*/
#ifndef _STLP_DEBUG_C
#define _STLP_DEBUG_C
#if defined (_STLP_DEBUG)
#if defined (_STLP_THREADS)
# if !defined (_STLP_NEED_MUTABLE)
# define _STLP_ACQUIRE_LOCK(_Lock) _Lock._M_acquire_lock();
# define _STLP_RELEASE_LOCK(_Lock) _Lock._M_release_lock();
# else
# define _STLP_ACQUIRE_LOCK(_Lock) ((_STLP_mutex&)_Lock)._M_acquire_lock();
# define _STLP_RELEASE_LOCK(_Lock) ((_STLP_mutex&)_Lock)._M_release_lock();
# endif /* _STLP_NEED_MUTABLE */
#else
# define _STLP_ACQUIRE_LOCK(_Lock)
# define _STLP_RELEASE_LOCK(_Lock)
#endif /* _STLP_THREADS */
_STLP_BEGIN_NAMESPACE
_STLP_MOVE_TO_PRIV_NAMESPACE
//==========================================================
// global non-inline functions
//==========================================================
// [ i1, i2)
#if !defined (__DMC__)
template <class _Iterator>
inline bool _STLP_CALL
stlp_in_range_aux(const _Iterator& __it, const _Iterator& __first,
const _Iterator& __last, const random_access_iterator_tag &) {
return ( __it >= __first &&
__it < __last);
}
#endif
template <class _Iterator1, class _Iterator>
#if defined (_STLP_MSVC)
inline bool _STLP_CALL stlp_in_range_aux(_Iterator1 __it, const _Iterator& __first,
#else
inline bool _STLP_CALL stlp_in_range_aux(const _Iterator1& __it, const _Iterator& __first,
#endif
const _Iterator& __last, const forward_iterator_tag &) {
_Iterator1 __i(__first);
for (; __i != __last && __i != __it; ++__i);
return (__i != __last);
}
#if defined (_STLP_NONTEMPL_BASE_MATCH_BUG)
template <class _Iterator1, class _Iterator>
inline bool _STLP_CALL
stlp_in_range_aux(const _Iterator1& __it, const _Iterator& __first,
const _Iterator& __last, const bidirectional_iterator_tag &) {
_Iterator1 __i(__first);
for (; __i != __last && __i != __it; ++__i);
return (__i != __last);
}
#endif
template <class _Iterator>
bool _STLP_CALL __check_range_aux(const _Iterator& __first, const _Iterator& __last,
const __false_type& /*_IsIntegral*/) {
_STLP_VERBOSE_RETURN(__valid_range(__first,__last), _StlMsg_INVALID_RANGE )
return true;
}
template <class _Integral>
bool _STLP_CALL __check_range_aux(_Integral /*__first*/, _Integral /*__last*/,
const __true_type& /*_IsIntegral*/)
{ return true; }
template <class _Iterator>
bool _STLP_CALL __check_range(const _Iterator& __first, const _Iterator& __last) {
typedef typename _IsIntegral<_Iterator>::_Ret _Integral;
return __check_range_aux(__first, __last, _Integral());
}
template <class _Iterator>
bool _STLP_CALL __check_range(const _Iterator& __it,
const _Iterator& __start, const _Iterator& __finish) {
_STLP_VERBOSE_RETURN(stlp_in_range(__it, __start, __finish),
_StlMsg_NOT_IN_RANGE_1)
return true;
}
template <class _Iterator>
bool _STLP_CALL __check_range(const _Iterator& __first, const _Iterator& __last,
const _Iterator& __start, const _Iterator& __finish) {
_STLP_VERBOSE_RETURN(stlp_in_range(__first, __last, __start, __finish),
_StlMsg_NOT_IN_RANGE_2)
return true;
}
template <class _Tp>
bool _STLP_CALL __check_ptr_range(const _Tp* __first, const _Tp* __last) {
_STLP_VERBOSE_RETURN((__first != 0 || __last == 0), _StlMsg_INVALID_ARGUMENT)
_STLP_VERBOSE_RETURN(__valid_range(__first, __last, random_access_iterator_tag()),
_StlMsg_INVALID_RANGE)
return true;
}
//===============================================================
template <class _Iterator>
void _STLP_CALL __invalidate_range(const __owned_list* __base,
const _Iterator& __first,
const _Iterator& __last) {
typedef __owned_link _L_type;
_STLP_ACQUIRE_LOCK(__base->_M_lock)
_L_type* __prev = __CONST_CAST(_L_type*, &__base->_M_node);
_L_type* __pos = __prev->_M_next;
while (__pos != 0) {
if (!(&__first == __STATIC_CAST(_Iterator*, __pos) || &__last == __STATIC_CAST(_Iterator*, __pos)) &&
stlp_in_range_aux(__STATIC_CAST(_Iterator*, __pos)->_M_iterator,
__first._M_iterator, __last._M_iterator,
_STLP_ITERATOR_CATEGORY(__first, _Iterator))) {
__pos->_M_owner = 0;
__prev->_M_next = __pos->_M_next;
}
else {
__prev = __pos;
}
__pos = __prev->_M_next;
}
_STLP_RELEASE_LOCK(__base->_M_lock)
}
template <class _Iterator>
void _STLP_CALL __invalidate_iterator(const __owned_list* __base,
const _Iterator& __it) {
typedef __owned_link _L_type;
_STLP_ACQUIRE_LOCK(__base->_M_lock)
_L_type* __prev = __CONST_CAST(_L_type*, &__base->_M_node);
_L_type* __pos = __prev->_M_next;
while (__pos != 0) {
// this requires safe iterators to be derived from __owned_link
if ((__pos != __STATIC_CAST(const _L_type*, &__it)) &&
(__STATIC_CAST(_Iterator*, __pos)->_M_iterator == __it._M_iterator)) {
__pos->_M_owner = 0;
__prev->_M_next = __pos->_M_next;
}
else {
__prev = __pos;
}
__pos = __prev->_M_next;
}
_STLP_RELEASE_LOCK(__base->_M_lock)
}
template <class _Iterator>
void _STLP_CALL __change_range_owner(const _Iterator& __first,
const _Iterator& __last,
const __owned_list* __dst) {
if (__first._Owner() == __dst)
return;
typedef __owned_link _L_type;
// Check __stl_debug_engine<_Dummy>::_Swap_owners comments to see why there is no lock here
//_STLP_ACQUIRE_LOCK(__base->_M_lock)
__owned_list *__base = __CONST_CAST(__owned_list*, __first._Owner());
_L_type* __src_prev = &__base->_M_node;
_L_type* __pos = __src_prev->_M_next;
_L_type* __dst_prev = __CONST_CAST(_L_type*, &__dst->_M_node);
while (__pos != 0) {
if (!(&__first == __STATIC_CAST(_Iterator*, __pos) || &__last == __STATIC_CAST(_Iterator*, __pos)) &&
stlp_in_range_aux(__STATIC_CAST(_Iterator*, __pos)->_M_iterator,
__first._M_iterator, __last._M_iterator,
_STLP_ITERATOR_CATEGORY(__first, _Iterator))) {
__pos->_M_owner = __CONST_CAST(__owned_list*, __dst);
//remove __pos from __base:
__src_prev->_M_next = __pos->_M_next;
//add __pos to __dst:
__pos->_M_next = __dst_prev->_M_next;
__dst_prev->_M_next = __pos;
}
else {
__src_prev = __pos;
}
__pos = __src_prev->_M_next;
}
#if defined(_STLP_WCE) && defined(_ARM_)
// Note: This part is needed for compiling under Windows CE under ARM and correctly using
// _STLP_DEBUG mode. This comes from a bug in the ARM compiler where checked iterators that
// are passed by value are not copied over correctly. When __change_range_owner is called,
// e.g. in std::list::splice() the wrong _M_owner field gets modified and the __first
// iterator has the old _M_owner field, but was moved to the new __owned_list. Setting
// the first iterator's _M_owner field fixes this. Ugly but works.
__pos = __CONST_CAST(_Iterator*, &__first);
__pos->_M_owner = __CONST_CAST(__owned_list*, __dst);
#endif
//_STLP_RELEASE_LOCK(__base->_M_lock)
}
template <class _Iterator>
void _STLP_CALL __change_ite_owner(const _Iterator& __it,
const __owned_list* __dst) {
if (__it._Owner() == __dst)
return;
typedef __owned_link _L_type;
// Check __stl_debug_engine<_Dummy>::_Swap_owners comments to see why there is no lock here
//_STLP_ACQUIRE_LOCK(__base->_M_lock)
__owned_list *__base = __CONST_CAST(__owned_list*, __it._Owner());
_L_type* __prev = &__base->_M_node;
_L_type* __pos = __prev->_M_next;
_L_type* __dst_prev = __CONST_CAST(_L_type*, &__dst->_M_node);
while (__pos != 0) {
// this requires safe iterators to be derived from __owned_link
if ((__pos != __STATIC_CAST(const _L_type*, &__it)) &&
(__STATIC_CAST(_Iterator*, __pos)->_M_iterator == __it._M_iterator)) {
__pos->_M_owner = __CONST_CAST(__owned_list*, __dst);
//remove __pos from __base:
__prev->_M_next = __pos->_M_next;
//add __pos to __dst:
__pos->_M_next = __dst_prev->_M_next;
__dst_prev->_M_next = __pos;
}
else {
__prev = __pos;
}
__pos = __prev->_M_next;
}
//_STLP_RELEASE_LOCK(__base->_M_lock)
}
_STLP_MOVE_TO_STD_NAMESPACE
_STLP_END_NAMESPACE
#endif /* _STLP_DEBUG */
#if defined (_STLP_EXPOSE_GLOBALS_IMPLEMENTATION)
# ifndef _STLP_INTERNAL_CSTDLIB
# include <stl/_cstdlib.h>
# endif
//==========================================================
// .c section
// owned_list non-inline methods and global functions
//==========================================================
# if defined (_STLP_ASSERTIONS)
_STLP_BEGIN_NAMESPACE
_STLP_MOVE_TO_PRIV_NAMESPACE
# if !defined (_STLP_STRING_LITERAL)
# define _STLP_STRING_LITERAL(__x) __x
# endif
# if defined (_STLP_USE_WIDE_INTERFACE)
// note: WinCE needs this to format single-byte strings in __stl_debug_engine::_Message
# define _STLP_PERCENT_S "%hs"
# else
# define _STLP_PERCENT_S "%s"
# endif /* _STLP_USE_WIDE_INTERFACE */
# define _STLP_MESSAGE_TABLE_BODY = { \
_STLP_STRING_LITERAL("\n" _STLP_PERCENT_S "(%d): STL error: " _STLP_PERCENT_S "\n"), \
_STLP_STRING_LITERAL(_STLP_PERCENT_S "(%d): STL assertion failure : " _STLP_PERCENT_S "\n" _STLP_ASSERT_MSG_TRAILER), \
_STLP_STRING_LITERAL("\n" _STLP_PERCENT_S "(%d): STL error : " _STLP_PERCENT_S "\n" _STLP_PERCENT_S "(%d): STL assertion failure: " _STLP_PERCENT_S " \n" _STLP_ASSERT_MSG_TRAILER), \
_STLP_STRING_LITERAL("Invalid argument to operation (see operation documentation)"), \
_STLP_STRING_LITERAL("Taking an iterator out of destroyed (or otherwise corrupted) container"), \
_STLP_STRING_LITERAL("Trying to extract an object out from empty container"),\
_STLP_STRING_LITERAL("Past-the-end iterator could not be erased"), \
_STLP_STRING_LITERAL("Index out of bounds"), \
_STLP_STRING_LITERAL("Container doesn't own the iterator"), \
_STLP_STRING_LITERAL("Container is owner of the iterator, but should not"), \
_STLP_STRING_LITERAL("Uninitialized or invalidated (by mutating operation) iterator used"), \
_STLP_STRING_LITERAL("Uninitialized or invalidated (by mutating operation) lefthand iterator in expression"), \
_STLP_STRING_LITERAL("Uninitialized or invalidated (by mutating operation) righthand iterator in expression"), \
_STLP_STRING_LITERAL("Iterators used in expression are from different owners"), \
_STLP_STRING_LITERAL("Iterator could not be dereferenced (past-the-end ?)"), \
_STLP_STRING_LITERAL("Range [first,last) is invalid"), \
_STLP_STRING_LITERAL("Iterator is not in range [first,last)"), \
_STLP_STRING_LITERAL("Range [first,last) is not in range [start,finish)"), \
_STLP_STRING_LITERAL("The advance would produce invalid iterator"), \
_STLP_STRING_LITERAL("Iterator is singular (advanced beyond the bounds ?)"), \
_STLP_STRING_LITERAL("Invalid strict weak ordering predicate, if pred(a, b) then we should have !pred(b, a)"), \
_STLP_STRING_LITERAL("Invalid equivalent predicate, if pred(a, b) then we should have pred(b, a)"), \
_STLP_STRING_LITERAL("Memory block deallocated twice"), \
_STLP_STRING_LITERAL("Deallocating a block that was never allocated"), \
_STLP_STRING_LITERAL("Deallocating a memory block allocated for another type"), \
_STLP_STRING_LITERAL("Size of block passed to deallocate() doesn't match block size"), \
_STLP_STRING_LITERAL("Pointer underrun - safety margin at front of memory block overwritten"), \
_STLP_STRING_LITERAL("Pointer overrrun - safety margin at back of memory block overwritten"), \
_STLP_STRING_LITERAL("Attempt to dereference null pointer returned by auto_ptr::get()"), \
_STLP_STRING_LITERAL("Memory allocation function returned a wrongly align memory block"), \
_STLP_STRING_LITERAL("Unknown problem") \
}
template <class _Dummy>
const char* __stl_debug_engine<_Dummy>::_Message_table[_StlMsg_MAX] _STLP_MESSAGE_TABLE_BODY;
# undef _STLP_STRING_LITERAL
# undef _STLP_PERCENT_S
_STLP_MOVE_TO_STD_NAMESPACE
_STLP_END_NAMESPACE
# if !defined (_STLP_DEBUG_MESSAGE)
# ifndef _STLP_INTERNAL_CSTDARG
# include <stl/_cstdarg.h>
# endif
# ifndef _STLP_INTERNAL_CSTDIO
# include <stl/_cstdio.h>
# endif
# if defined (_STLP_DEBUG_MODE_THROWS) && !defined (_STLP_RANGE_ERRORS_H)
# include <stl/_range_errors.h>
# endif
_STLP_BEGIN_NAMESPACE
_STLP_MOVE_TO_PRIV_NAMESPACE
template <class _Dummy>
void _STLP_CALL
__stl_debug_engine<_Dummy>::_Message(const char * __format_str, ...) {
STLPORT_CSTD::va_list __args;
va_start( __args, __format_str );
# if !defined (_STLP_DEBUG_MODE_THROWS)
# if defined (_STLP_USE_WIDE_INTERFACE)
TCHAR __buffer[512];
int _convert = strlen(__format_str) + 1;
LPWSTR _lpw = (LPWSTR)alloca(_convert * sizeof(wchar_t));
_lpw[0] = '\0';
MultiByteToWideChar(GetACP(), 0, __format_str, -1, _lpw, _convert);
wvsprintf(__buffer, _lpw, __args);
_STLP_WINCE_TRACE(__buffer);
# elif defined (_STLP_WIN32) && (defined(_STLP_MSVC) || defined (__ICL))
char __buffer [4096];
# if !defined (_STLP_USE_SAFE_STRING_FUNCTIONS)
vsnprintf(__buffer, _STLP_ARRAY_SIZE(__buffer), __format_str, __args);
# else
vsnprintf_s(__buffer, _STLP_ARRAY_SIZE(__buffer), _TRUNCATE, __format_str, __args);
# endif
OutputDebugStringA(__buffer);
# elif defined (__amigaos__)
STLPORT_CSTD::vfprintf(stderr, __format_str, (char *)__args);
# else
STLPORT_CSTD::vfprintf(stderr, __format_str, __args);
# endif
# else
char __buffer[4096];
# if defined (_STLP_USE_SAFE_STRING_FUNCTIONS)
vsnprintf_s(__buffer, _STLP_ARRAY_SIZE(__buffer), _TRUNCATE, __format_str, __args);
# elif defined (_STLP_WIN32) && (defined(_STLP_MSVC) || defined (__ICL))
vsnprintf(__buffer, _STLP_ARRAY_SIZE(__buffer), __format_str, __args);
# else
vsprintf(__buffer, __format_str, __args);
# endif
# endif
# ifdef _STLP_DEBUG_MESSAGE_POST
_STLP_DEBUG_MESSAGE_POST
# endif
va_end(__args);
# if defined (_STLP_DEBUG_MODE_THROWS)
__stl_throw_runtime_error(__buffer);
# endif
}
_STLP_MOVE_TO_STD_NAMESPACE
_STLP_END_NAMESPACE
# else
_STLP_BEGIN_NAMESPACE
_STLP_MOVE_TO_PRIV_NAMESPACE
template <class _Dummy>
void _STLP_CALL
__stl_debug_engine<_Dummy>::_Message(const char * __format_str, ...)
{}
_STLP_MOVE_TO_STD_NAMESPACE
_STLP_END_NAMESPACE
# endif /* _STLP_DEBUG_MESSAGE */
_STLP_BEGIN_NAMESPACE
_STLP_MOVE_TO_PRIV_NAMESPACE
template <class _Dummy>
void _STLP_CALL
__stl_debug_engine<_Dummy>::_IndexedError(int __error_ind, const char* __f, int __l) {
__stl_debug_message(_Message_table[_StlFormat_ERROR_RETURN],
__f, __l, _Message_table[__error_ind]);
}
template <class _Dummy>
void _STLP_CALL
__stl_debug_engine<_Dummy>::_VerboseAssert(const char* __expr, int __error_ind, const char* __f, int __l) {
__stl_debug_message(_Message_table[_StlFormat_VERBOSE_ASSERTION_FAILURE],
__f, __l, _Message_table[__error_ind], __f, __l, __expr);
__stl_debug_terminate();
}
template <class _Dummy>
void _STLP_CALL
__stl_debug_engine<_Dummy>::_Assert(const char* __expr, const char* __f, int __l) {
__stl_debug_message(_Message_table[_StlFormat_ASSERTION_FAILURE],__f, __l, __expr);
__stl_debug_terminate();
}
// if exceptions are present, sends unique exception
// if not, calls abort() to terminate
template <class _Dummy>
void _STLP_CALL
__stl_debug_engine<_Dummy>::_Terminate()
{ _STLP_ABORT(); }
_STLP_MOVE_TO_STD_NAMESPACE
_STLP_END_NAMESPACE
# endif /* _STLP_ASSERTIONS */
# if defined (_STLP_DEBUG)
_STLP_BEGIN_NAMESPACE
_STLP_MOVE_TO_PRIV_NAMESPACE
//==========================================================
// owned_list non-inline methods
//==========================================================
template <class _Dummy>
void _STLP_CALL
__stl_debug_engine<_Dummy>::_Invalidate_all(__owned_list* __l) {
_STLP_ACQUIRE_LOCK(__l->_M_lock);
_Stamp_all(__l, 0);
__l->_M_node._M_next =0;
_STLP_RELEASE_LOCK(__l->_M_lock);
}
// boris : this is unasafe routine; should be used from within critical section only !
template <class _Dummy>
void _STLP_CALL
__stl_debug_engine<_Dummy>::_Stamp_all(__owned_list* __l, __owned_list* __o) {
// crucial
if (__l->_M_node._M_owner) {
for (__owned_link* __pos = (__owned_link*)__l->_M_node._M_next;
__pos != 0; __pos = (__owned_link*)__pos->_M_next) {
_STLP_ASSERT(__pos->_Owner()== __l)
__pos->_M_owner=__o;
}
}
}
template <class _Dummy>
void _STLP_CALL
__stl_debug_engine<_Dummy>::_Verify(const __owned_list* __l) {
_STLP_ACQUIRE_LOCK(__l->_M_lock);
if (__l) {
_STLP_ASSERT(__l->_M_node._Owner() != 0)
for (__owned_link* __pos = (__owned_link*)__l->_M_node._M_next;
__pos != 0; __pos = (__owned_link*)__pos->_M_next) {
_STLP_ASSERT(__pos->_Owner()== __l)
}
}
_STLP_RELEASE_LOCK(__l->_M_lock);
}
template <class _Dummy>
void _STLP_CALL
__stl_debug_engine<_Dummy>::_Swap_owners(__owned_list& __x, __owned_list& __y) {
/*
* according to the standard : --no swap() function invalidates any references,
* pointers, or iterators referring to the elements of the containers being swapped.
*/
__owned_link* __tmp;
/*
* boris : there is a deadlock potential situation here if we lock two containers sequentially.
* As user is supposed to provide its own synchronization around swap() ( it is unsafe to do any container/iterator access
* in parallel with swap()), we just do not use any locking at all -- that behaviour is closer to non-debug version
*/
__tmp = __x._M_node._M_next;
_Stamp_all(&__x, &__y);
_Stamp_all(&__y, &__x);
__x._M_node._M_next = __y._M_node._M_next;
__y._M_node._M_next = __tmp;
}
template <class _Dummy>
void _STLP_CALL
__stl_debug_engine<_Dummy>::_Set_owner(__owned_list& __src, __owned_list& __dst) {
if (&__src == &__dst)
return;
// Check __stl_debug_engine<_Dummy>::_Swap_owners comments to see why there is no lock here
typedef __owned_link _L_type;
_L_type* __prev = &__src._M_node;
_L_type* __pos = __prev->_M_next;
while (__pos != 0) {
__pos->_M_owner = &__dst;
__prev = __pos;
__pos = __prev->_M_next;
}
__prev->_M_next = __dst._M_node._M_next;
__dst._M_node._M_next = __src._M_node._M_next;
__src._M_node._M_next = 0;
}
template <class _Dummy>
void _STLP_CALL
__stl_debug_engine<_Dummy>::_M_detach(__owned_list* __l, __owned_link* __c_node) {
if (__l != 0) {
_STLP_VERBOSE_ASSERT(__l->_Owner()!=0, _StlMsg_INVALID_CONTAINER)
_STLP_ACQUIRE_LOCK(__l->_M_lock)
// boris : re-test the condition in case someone else already deleted us
if(__c_node->_M_owner != 0) {
__owned_link* __prev, *__next;
for (__prev = &__l->_M_node; (__next = __prev->_M_next) != __c_node;
__prev = __next) {
_STLP_ASSERT(__next && __next->_Owner() == __l)
}
__prev->_M_next = __c_node->_M_next;
__c_node->_M_owner=0;
}
_STLP_RELEASE_LOCK(__l->_M_lock)
}
}
template <class _Dummy>
void _STLP_CALL
__stl_debug_engine<_Dummy>::_M_attach(__owned_list* __l, __owned_link* __c_node) {
if (__l ==0) {
(__c_node)->_M_owner = 0;
} else {
_STLP_VERBOSE_ASSERT(__l->_Owner()!=0, _StlMsg_INVALID_CONTAINER)
_STLP_ACQUIRE_LOCK(__l->_M_lock)
__c_node->_M_owner = __l;
__c_node->_M_next = __l->_M_node._M_next;
__l->_M_node._M_next = __c_node;
_STLP_RELEASE_LOCK(__l->_M_lock)
}
}
template <class _Dummy>
void* _STLP_CALL
__stl_debug_engine<_Dummy>::_Get_container_ptr(const __owned_link* __l) {
const __owned_list* __owner = __l->_Owner();
_STLP_VERBOSE_RETURN_0(__owner != 0, _StlMsg_INVALID_ITERATOR)
void* __ret = __CONST_CAST(void*,__owner->_Owner());
_STLP_VERBOSE_RETURN_0(__ret !=0, _StlMsg_INVALID_CONTAINER)
return __ret;
}
template <class _Dummy>
bool _STLP_CALL
__stl_debug_engine<_Dummy>::_Check_same_owner(const __owned_link& __i1,
const __owned_link& __i2) {
_STLP_VERBOSE_RETURN(__i1._Valid(), _StlMsg_INVALID_LEFTHAND_ITERATOR)
_STLP_VERBOSE_RETURN(__i2._Valid(), _StlMsg_INVALID_RIGHTHAND_ITERATOR)
_STLP_VERBOSE_RETURN((__i1._Owner() == __i2._Owner()), _StlMsg_DIFFERENT_OWNERS)
return true;
}
template <class _Dummy>
bool _STLP_CALL
__stl_debug_engine<_Dummy>::_Check_same_or_null_owner(const __owned_link& __i1,
const __owned_link& __i2) {
_STLP_VERBOSE_RETURN(__i1._Owner() == __i2._Owner(), _StlMsg_DIFFERENT_OWNERS)
return true;
}
template <class _Dummy>
bool _STLP_CALL
__stl_debug_engine<_Dummy>::_Check_if_owner( const __owned_list * __l, const __owned_link& __it) {
const __owned_list* __owner_ptr = __it._Owner();
_STLP_VERBOSE_RETURN(__owner_ptr != 0, _StlMsg_INVALID_ITERATOR)
_STLP_VERBOSE_RETURN(__l == __owner_ptr, _StlMsg_NOT_OWNER)
return true;
}
template <class _Dummy>
bool _STLP_CALL
__stl_debug_engine<_Dummy>::_Check_if_not_owner( const __owned_list * __l, const __owned_link& __it) {
const __owned_list* __owner_ptr = __it._Owner();
_STLP_VERBOSE_RETURN(__owner_ptr != 0, _StlMsg_INVALID_ITERATOR)
_STLP_VERBOSE_RETURN(__l != __owner_ptr, _StlMsg_SHOULD_NOT_OWNER)
return true;
}
_STLP_MOVE_TO_STD_NAMESPACE
_STLP_END_NAMESPACE
# endif /* _STLP_DEBUG */
#endif /* if defined (EXPOSE_GLOBALS_IMPLEMENTATION) */
#endif /* header guard */
// Local Variables:
// mode:C++
// End: