tornavis/doc/guides/blender-guardedalloc.txt

MEMORY MANAGEMENT IN BLENDER (guardedalloc)
-------------------------------------------

NOTE: This file does not cover memutil and smart pointers and reference counted
      garbage collection, which are contained in the memutil module.

Blender takes care of dynamic memory allocation using a set of own functions
which are recognizable through their MEM_ prefix. All memory allocation and
deallocation in blender is done through these functions.

The following functions are available through MEM_guardedalloc.h:

For normal operation:
---------------------

void *MEM_[mc]allocN(unsigned int len, char * str);

- nearest ANSI counterpart: malloc()
- str must be a static string describing the memory block (used for debugging
memory management problems)
- returns a memory block of length len
- MEM_callocN clears the memory block to 0

void *MEM_dupallocN(void *vmemh);

- nearest ANSI counterpart: combination malloc() and memcpy()
- returns a pointer to a copy of the given memory area

short MEM_freeN(void *vmemh);

- nearest ANSI counterpart: free()
- frees the memory area given by the pointer
- returns 0 on success and !=0 on error

int MEM_allocN_len(void *vmemh);

- nearest ANSI counterpart: none known
- returns the length of the given memory area

For debugging:
--------------

void MEM_set_error_stream(FILE*);

- this sets the file the memory manager should use to output debugging messages
- if the parameter is NULL the messages are suppressed
- default is that messages are suppressed

void MEM_printmemlist(void);

- if err_stream is set by MEM_set_error_stream() this function dumps a list of all
currently allocated memory blocks with length and name to the stream

bool MEM_consistency_check(void);

- this function tests if the internal structures of the memory manager are intact
- returns 0 on success and !=0 on error