The problem described is as old as the road to Rome, to use a Dutch saying. I have worked out the problem and a memory allocation for an object that might throw an exception looks as follows:
try
{
std::string *l_string =
(_heap_cleanup_tpl<std::string>(&l_string),
new std::string(0xf0000000, ' '));
delete l_string;
}
catch(std::exception &)
{
}
Before the actual call to the new
-operator, a nameless (temporary) object is created, which receives the address of the allocated memory through a user-defined new-operator (see the rest of this answer). In case of normal programme execution, the temporary object passes the result of the new-operator (the newly created and fully constructed object, in our case a very very very long string) to the variable l_string
. In case of an exception, the value is not passed on, but the destructor of the temporary object deletes the memory (without ofcourse calling the destructor of the main object).
It is a bit fuzzy way of dealing with the issue, but it works. Problems may arise because this solution requires a user-defined new-operator and a user-defined delete-operator to go allong with it. The user-defined new/delete-operators would have to call the C++-standard library's implementation of new/delete-operators, but I have left that out for briefity and relied on malloc()
and free()
instead.
It is not the final answer, but I think it is worth working this one out.
PS: There was an 'undocumented' feature in the code below, so I have made an improvement.
The code for the temporary object is as follows:
class _heap_cleanup_helper
{
public:
_heap_cleanup_helper(void **p_heap_block) :
m_heap_block(p_heap_block),
m_previous(m_last),
m_guard_block(NULL)
{
*m_heap_block = NULL;
m_last = this;
}
~_heap_cleanup_helper()
{
if (*m_heap_block == NULL) operator delete(m_guard_block);
m_last = m_previous;
}
void **m_heap_block, *m_guard_block;
_heap_cleanup_helper *m_previous;
static _heap_cleanup_helper *m_last;
};
_heap_cleanup_helper *_heap_cleanup_helper::m_last;
template <typename p_alloc_type>
class _heap_cleanup_tpl : public _heap_cleanup_helper
{
public:
_heap_cleanup_tpl(p_alloc_type **p_heap_block) :
_heap_cleanup_helper((void **)p_heap_block)
{
}
};
The user-defined new-operator is as follows:
void *operator new (size_t p_cbytes)
{
void *l_retval = malloc(p_cbytes);
if (
l_retval != NULL &&
*_heap_cleanup_helper::m_last->m_heap_block == NULL &&
_heap_cleanup_helper::m_last->m_guard_block == NULL
)
{
_heap_cleanup_helper::m_last->m_guard_block = l_retval;
}
if (p_cbytes != 0 && l_retval == NULL) throw std::bad_alloc();
return l_retval;
}
void operator delete(void *p_buffer)
{
if (p_buffer != NULL) free(p_buffer);
}