Difference between revisions of "Object pool"
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* {{GTAF|777350|<nowiki>[TUT|DOC] SCM functions (including TraversePoolEntities algorithms)</nowiki>}} – Multi-purpose tutorial also showing a scripted implementation of pool traversal to catch any type of entity by handle. | * {{GTAF|777350|<nowiki>[TUT|DOC] SCM functions (including TraversePoolEntities algorithms)</nowiki>}} – Multi-purpose tutorial also showing a scripted implementation of pool traversal to catch any type of entity by handle. | ||
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Revision as of 18:16, 17 July 2016
The object pool is a design pattern capable of reducing the allocation/deallocation overhead by reusing pre-instanced resources on demand and restricting their simultaneous usage at a given time. It is heavily employed when the bottleneck induced by the frequent creations/destructions of objects is a concern.
Practical implementation
In trilogy chapters, pools come with (note numerical fields are all 32-bit signed integers):
- object-list, an array of variable-sized slots of same type;
- byte-map, an array of slot states each of which holds a seed (in the lower 7 bits) to randomize handles (also known as references) by a conspicuous factor and a free-flag (in the sign-bit, 8th bit) to signal the emptiness of the slot itself;
- count, the number of slots;
- first-free, a hint where to look from for free slot searching;
- initialized-state, a flag indicating if arrays were allocated.
Pools are commonly implemented in the following way:
- On pool initialization – Initialise(count):
- object-list and byte-map are allocated with a fixed number of slots;
- count is set accordingly while first-free becomes -1;
- initialized-state is switched to true and byte-map is cleared (see below).
- On pool clean up – Clear():
- For each slot of byte-map, seed is zeroed while free-flag is set.
- On pool shutdown – Flush():
- If count isn't equal to 0:
- If initialized-state is true, object-list and byte-map are deallocated and zeroed (null-pointer check involved);
- count and first-free are zeroed.
- If count isn't equal to 0:
- On slot lookup – GetAt(index):
- free-flag nullity of byte-map[index] is verified:
- If true, object-list[index] is returned;
- If false, a null-pointer is returned.
- free-flag nullity of byte-map[index] is verified:
- On slot lookup – GetAtHandle(handle):
- index is extracted from handle by
index = handle >> 8
and byte-map[index] is compared to the lower 8 bits of handle:- If equal, object-list[index] is returned;
- If different, a null-pointer is returned.
- index is extracted from handle by
- On slot just-index retrieval – GetJustIndex(object):
- slot-id is returned by
slot_id = (object - object_list) / sizeof(object)
.
- slot-id is returned by
- On slot index retrieval – GetIndex(object):
- slot-id is computed as above and handle is returned by
handle = (slot_id << 8) | byte_map[slot_id]
.
- slot-id is computed as above and handle is returned by
- On free-slot request – New():
- Inside loop:
- first-free is incremented at each iteration;
- If count is reached, first-free is zeroed and the loop continues below, till the top one more time again (pretty odd, stopping at initial first-free +1 would have made more sense);
- free-flag of byte-map[first-free] is verified:
- If true, free-flag is unset while seed is advanced (overflow is solved by
seed = (seed + 1) % 128
) and the reference of object-list[first-free] is returned; - If false, the loop continues to the next iteration.
- If true, free-flag is unset while seed is advanced (overflow is solved by
- Outside loop:
- No free slot was found, hence null-pointer returned.
- Inside loop:
- On slot reservation – New(handle):
- index is extracted from handle (see above) while free-flag and seed of byte-map[index] are respectively unset and advanced (overflow solved as mentioned);
- first-free is then set to index of first byte-map[index] with free-flag unset.
- On slot removal – Delete(object):
- slot-id is obtained as above while free-flag of byte-map[slot-id] is set;
- If index is less than first-free, the latter is updated.
Handle uniqueness
The probability to encounter an object with a non-unique handle after an undefined amount of new/delete requests is given by...cost = 1 / ((free_slot_count * 128) + busy_slot_count)
:
- In the worst case (assuming the last reserved object of a full pool is repeatedly released/re-added), it is
cost = 1 / (128 + (object_count - 1))
; - In the best case (assuming an empty pool is filled till the maximum with no release), it is
cost = 1 / (object_count * 128)
.
See also
- GTAForums: [TUT|DOC] SCM functions (including TraversePoolEntities algorithms) – Multi-purpose tutorial also showing a scripted implementation of pool traversal to catch any type of entity by handle.