This module provides functions for allocating and deallocating memory.
unsigned char etype;
This function allocates an (ETERM)
structure.
Specify etype
as one of the following constants:
/* unsigned integer */
/* Erlang process identifier */
/* Erlang reference */
/* bignum */
/* bignum */
ERL_SMALL_BIG
and ERL_U_SMALL_BIG
are for
creating Erlang bignums
, which can contain integers of
arbitrary size. The size of an integer in Erlang is machine
dependent, but in general any integer larger than 2^28
requires a bignum.
Clears the
freelist, where blocks are placed when they are
released by erl_free_term()
and
erl_free_compound()
.
void erl_eterm_statistics(allocated, freed)
long *allocated;
long *freed;
allocated
and freed
are initialized to
contain information about the fix-allocator used to allocate
ETERM components. allocated
is the number of blocks
currently allocated to ETERM objects. freed
is the
length of the freelist, where blocks are placed when they are
released by erl_free_term()
and
erl_free_compound()
.
void erl_free_array(array, size)
ETERM **array;
int size;
This function frees an array of Erlang terms.
array
is an array of ETERM* objects.
size
is the number of terms in the array.
ETERM *t;
Use this function to free an Erlang term.
ETERM *t;
Normally it is the programmer's responsibility to free each
Erlang term that has been returned from any of the
erl_interface
functions. However since many of the
functions that build new Erlang terms in fact share objects
with other existing terms, it may be difficult for the
programmer to maintain pointers to all such terms in order to
free them individually.
erl_free_compound()
will recursively free all of the
sub-terms associated with a given Erlang term, regardless of
whether we are still holding pointers to the sub-terms.
There is an example in the User Manual under "Building Terms and Patterns"
long size;
This function calls the standard
malloc()
function.
void *ptr;
This function calls the standard
free()
function.