When using dbstl, make sure memory allocated in the heap is released after use. The rules for this are:
dbstl will free/delete any memory allocated by dbstl itself.
You are responsible for freeing/deleting any memory allocated by your code outside of dbstl.
When you open a DbEnv
or Db
object using
dbstl::open_env()
or dbstl::open_db()
, you
do not need to delete that object. However, if you new'd that object and then opened it
without using the dbstl::open_env()
or
dbstl::open_db()
methods, you are responsible for deleting the
object.
Note that you must new
the Db
or
DbEnv
object, which allocates it on the heap. You can not allocate it
on the stack. If you do, the order of destruction is uncontrollable, which makes dbstl
unable to work properly.
You can call dbstl_exit()
before the process exits, to release any
memory allocated by dbstl that has to live during the entire process lifetime. Releasing the
memory explicitly will not make much difference, because the process is about to exit and so
all memory allocated on the heap is going to be returned to the operating system anyway. The
only real difference is that your memory leak checker will not report false memory leaks.
dbstl_exit()
releases any memory allocated by dbstl on the heap. It
also performs other required shutdown operations, such as closing any databases and
environments registered to dbstl and shared across the process.
If you are calling the dbstl_exit()
function, and your
DbEnv
or Db
objects are new'd by your code,
the dbstl_exit()
function should be called before deleting the
DbEnv
or Db
objects, because they need to be
closed before being deleted. Alternatively, you can call the
dbstl::close_env()
or dbstl::close_db()
functions before deleting the DbEnv
or Db
objects in order to explicitly close the databases or environments. If you do this,
can then delete these objects, and then call dbstl_exit()
.
Only when you are storing raw bytes (such as a bitmap) do you have to
store and retrieve data by using the DbstlDbt
helper class. Although you
also can do so simply by using the Berkeley DB Dbt
class, the
DbstlDbt
class offers more convenient memory management behavior.
When you are storing DbstlDbt
objects (such as
db_vector<DbstlDbt>
), you must allocate
heap memory explicitly using the malloc()
function for the
DbstlDbt
object to reference, but you do not need to free the memory
– it is automatically freed by the DbstlDbt
object that owns it
by calling the standard C library free()
function.
However, because dbstl supports storing any type of object or primitive data, it is rare
that you would have to store data using DbstlDbt
objects while using
dbstl. Examples of storing DbstlDbt
objects can be found in the
TestAssoc::test_arbitrary_object_storage()
and
TestAssoc::test_char_star_string_storage()
functions, which are
available in the dbstl test suite.